individualid,originalid,originaltraitname,originaltraitdef,originaltraitvalue,originaltraitunit,originalerrorpos,originalerrorneg,originalerrorunit,standardisederrorpos,replicates,habitat,labfield,arenavalue,arenaunit,ambienttemp,ambienttempmethod,ambienttempunit,ambientlight,ambientlightunit,secondstressor,secondstressordef,secondstressorvalue,secondstressorunit,timestart,timeend,totalobstimevalue,totalobstimeunit,totalobstimenotes,locationtext,locationtype,locationdate,locationdateprecision,coordinatetype,latitude,longitude,interactor1,interactor1common,interactor1wholepart,interactor1wholeparttype,interactor1number,interactor1kingdom,interactor1phylum,interactor1class,interactor1order,interactor1family,interactor1genus,interactor1species,interactor1stage,interactor1sex,interactor1temp,interactor1tempunit,interactor1tempmethod,interactor1growthtemp,interactor1growthtempunit,interactor1acc,interactor1acctemp,interactor1acctempnotes,interactor1acctime,interactor1acctimenotes,interactor1acctimeunit,interactor1size,interactor1sizeunit,interactor1sizetype,interactor1denvalue,interactor1denunit,interactor2common,interactor2kingdom,interactor2phylum,interactor2class,interactor2order,interactor2family,interactor2genus,interactor2species,interactor2stage,interactor2size,interactor2sizeunit,interactor2sizetype,figuretable,citation,doi,curatedbycitation,curatedbydoi,submittedby,contributoremail,notes,published,embargorelease
NA,JOE104,survival,percentage surviving life stage,83.16,percent,5.49,5.86,se,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,399,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,20,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1A,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage out of n=480 at the start of the experiment,TRUE,01/01/2013
NA,JOE104,survival,percentage surviving life stage,71.81,percent,5.67,5.85,se,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,30,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,345,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,20,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1A,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage out of n=480 at the start of the experiment,TRUE,01/01/2013
NA,JOE104,survival,percentage surviving life stage,81.74,percent,5.67,5.85,se,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,20,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,392,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1A,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage out of n=480 at the start of the experiment,TRUE,01/01/2013
NA,JOE104,survival,percentage surviving life stage,86.7,percent,5.5,5.67,se,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,416,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1A,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage out of n=480 at the start of the experiment,TRUE,01/01/2013
NA,JOE104,survival,percentage surviving life stage,78.01,percent,5.5,5.85,se,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,20,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,374,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1A,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage out of n=480 at the start of the experiment,TRUE,01/01/2013
NA,JOE104,survival,percentage surviving life stage,64.54,percent,5.67,5.5,se,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,310,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1A,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage out of n=480 at the start of the experiment,TRUE,01/01/2013
NA,JOE104,survival,percentage surviving life stage,77.84,percent,5.67,5.5,se,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,30,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,374,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1A,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage out of n=480 at the start of the experiment,TRUE,01/01/2013
NA,JOE105,body size,mean dry weight,0.448,mg,0.0107,0.0103,se,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1B,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,number of individuals measured is not stated,TRUE,01/01/2013
NA,JOE105,body size,mean dry weight,0.416,mg,0.0099,0.0107,se,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,30,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1B,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,number of individuals measured is not stated,TRUE,01/01/2013
NA,JOE105,body size,mean dry weight,0.431,mg,0.0111,0.0103,se,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,20,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1B,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,number of individuals measured is not stated,TRUE,01/01/2013
NA,JOE105,body size,mean dry weight,0.429,mg,0.0107,0.0099,se,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1B,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,number of individuals measured is not stated,TRUE,01/01/2013
NA,JOE105,body size,mean dry weight,0.45,mg,0.0107,0.0107,se,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,20,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1B,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,number of individuals measured is not stated,TRUE,01/01/2013
NA,JOE105,body size,mean dry weight,0.408,mg,0.0103,0.0107,se,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1B,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,number of individuals measured is not stated,TRUE,01/01/2013
NA,JOE105,body size,mean dry weight,0.421,mg,0.0111,0.0099,se,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,30,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1B,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,number of individuals measured is not stated,TRUE,01/01/2013
NA,JOE106,development time,mean duration of life stage,15.4,days,0.29,0.29,se,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,173,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,20,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1C,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage out of n=480 at the start of the experiment multiplied by 0.5 to give an assumed sex ratio of 1:1,TRUE,01/01/2013
NA,JOE106,development time,mean duration of life stage,18.53,days,0.39,0.39,se,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,20,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1C,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage out of n=480 at the start of the experiment multiplied by 0.5 to give an assumed sex ratio of 1:1,TRUE,01/01/2013
NA,JOE106,development time,mean duration of life stage,10.45,days,0.29,0.29,se,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor (juvenile) temp and interactor1temp (adult) secondstressor is the larval temp and interac,30,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,196,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,20,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1C,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage out of n=480 at the start of the experiment multiplied by 0.5 to give an assumed sex ratio of 1:1,TRUE,01/01/2013
NA,JOE106,development time,mean duration of life stage,7.52,days,0.29,0.29,se,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor (juvenile) temp and interactor1temp (adult) secondstressor is the larval temp and interac,30,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,208,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,20,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1C,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage out of n=480 at the start of the experiment multiplied by 0.5 to give an assumed sex ratio of 1:1,TRUE,01/01/2013
NA,JOE106,development time,mean duration of life stage,18.09,days,0.34,0.34,se,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor (juvenile) temp and interactor1temp (adult) secondstressor is the larval temp and interac,20,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,187,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1C,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage out of n=480 at the start of the experiment multiplied by 0.5 to give an assumed sex ratio of 1:1,TRUE,01/01/2013
NA,JOE106,development time,mean duration of life stage,15.35,days,0.29,0.29,se,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor (juvenile) temp and interactor1temp (adult) secondstressor is the larval temp and interac,20,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,155,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1C,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage out of n=480 at the start of the experiment multiplied by 0.5 to give an assumed sex ratio of 1:1,TRUE,01/01/2013
NA,JOE106,development time,mean duration of life stage,12.9,days,0.34,0.34,se,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,187,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1C,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage out of n=480 at the start of the experiment multiplied by 0.5 to give an assumed sex ratio of 1:1,TRUE,01/01/2013
NA,JOE106,development time,mean duration of life stage,14.71,days,0.34,0.34,se,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,208,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1C,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage out of n=480 at the start of the experiment multiplied by 0.5 to give an assumed sex ratio of 1:1,TRUE,01/01/2013
NA,JOE106,development time,mean duration of life stage,17.55,days,0.39,0.39,se,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor (juvenile) temp and interactor1temp (adult) secondstressor is the larval temp and interac,20,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,173,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1C,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage out of n=480 at the start of the experiment multiplied by 0.5 to give an assumed sex ratio of 1:1,TRUE,01/01/2013
NA,JOE106,development time,mean duration of life stage,15.25,days,0.29,0.29,se,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor (juvenile) temp and interactor1temp (adult) secondstressor is the larval temp and interac,20,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,196,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1C,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage out of n=480 at the start of the experiment multiplied by 0.5 to give an assumed sex ratio of 1:1,TRUE,01/01/2013
NA,JOE106,development time,mean duration of life stage,8.06,days,0.29,0.29,se,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1C,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage out of n=480 at the start of the experiment multiplied by 0.5 to give an assumed sex ratio of 1:1,TRUE,01/01/2013
NA,JOE106,development time,mean duration of life stage,10.9,days,0.44,0.44,se,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,187,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1C,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage out of n=480 at the start of the experiment multiplied by 0.5 to give an assumed sex ratio of 1:1,TRUE,01/01/2013
NA,JOE106,development time,mean duration of life stage,10.94,days,0.39,0.39,se,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor (juvenile) temp and interactor1temp (adult) secondstressor is the larval temp and interac,30,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,155,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1C,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage out of n=480 at the start of the experiment multiplied by 0.5 to give an assumed sex ratio of 1:1,TRUE,01/01/2013
NA,JOE106,development time,mean duration of life stage,8.01,days,0.29,0.29,se,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor (juvenile) temp and interactor1temp (adult) secondstressor is the larval temp and interac,30,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,187,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1C,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage out of n=480 at the start of the experiment multiplied by 0.5 to give an assumed sex ratio of 1:1,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes) and alternating temperatures (secondstressor),100,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,30,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 0,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes) and alternating temperatures (secondstressor),94,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,30,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 1,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes) and alternating temperatures (secondstressor),83,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,30,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 2,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes) and alternating temperatures (secondstressor),73,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,30,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 3,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes) and alternating temperatures (secondstressor),62,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,30,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 4,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes) and alternating temperatures (secondstressor),51,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,30,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 5,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes) and alternating temperatures (secondstressor),33,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,30,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 6,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes) and alternating temperatures (secondstressor),21,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,30,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 7,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes) and alternating temperatures (secondstressor),11,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,30,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 8,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes) and alternating temperatures (secondstressor),6,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,30,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 9,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes) and alternating temperatures (secondstressor),3,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,30,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 10,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes) and alternating temperatures (secondstressor),0,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,30,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 11,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes) and alternating temperatures (secondstressor),100,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,30,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,20,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 0,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes) and alternating temperatures (secondstressor),95,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,30,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,20,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 1,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes) and alternating temperatures (secondstressor),76,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,30,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,20,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 2,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes) and alternating temperatures (secondstressor),48,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,30,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,20,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 3,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes) and alternating temperatures (secondstressor),23,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,30,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,20,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 4,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes) and alternating temperatures (secondstressor),12,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,30,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,20,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 5,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes) and alternating temperatures (secondstressor),2,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,30,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,20,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 6,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes) and alternating temperatures (secondstressor),0,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,30,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,20,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 7,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes),100,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 0,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes),96,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 2,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes),81,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 3,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes),65,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 4,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes),59,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 5,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes),54,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 6,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes),41,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 7,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes),35,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 8,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes),25,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 9,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes),17,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 10,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes),14,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 11,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes),7,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 12,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes),5,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 13,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes),4,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 14,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes),3,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 15,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes),1,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 22,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes),0,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 23,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes),100,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 0,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes),91,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 3,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes),79,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 4,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes),58,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 5,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes),36,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 6,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes),26,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 7,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes),20,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 8,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes),16,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 9,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes),10,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 10,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes),8,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 11,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes),6,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 12,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes),5,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 13,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes),3,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 15,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes),1,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 20,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes),0,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 21,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes),100,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,20,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 0,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes),99,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,20,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 1,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes),98,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,20,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 2,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes),97,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,20,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 3,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes),93,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,20,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 4,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes),79,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,20,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 5,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes),63,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,20,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 6,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes),50,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,20,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 7,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes),35,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,20,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 8,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes),23,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,20,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 9,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes),16,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,20,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 10,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes),11,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,20,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 11,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes),3,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,20,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 13,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes),2,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,20,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 16,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes),1,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,20,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 20,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes) and alternating temperatures (secondstressor),100,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,20,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 0,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes) and alternating temperatures (secondstressor),100,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,20,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 1,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes) and alternating temperatures (secondstressor),96,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,20,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 2,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes) and alternating temperatures (secondstressor),67,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,20,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 3,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes) and alternating temperatures (secondstressor),35,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,20,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 4,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes) and alternating temperatures (secondstressor),13,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,20,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 5,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes) and alternating temperatures (secondstressor),5,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,20,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 6,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes) and alternating temperatures (secondstressor),4,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,20,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 7,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes) and alternating temperatures (secondstressor),2,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,20,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 8,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes) and alternating temperatures (secondstressor),1,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,20,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 9,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes) and alternating temperatures (secondstressor),0,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,20,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 10,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes) and alternating temperatures (secondstressor),100,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,20,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 0,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes) and alternating temperatures (secondstressor),99,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,20,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 2,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes) and alternating temperatures (secondstressor),84,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,20,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 3,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes) and alternating temperatures (secondstressor),61,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,20,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 4,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes) and alternating temperatures (secondstressor),41,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,20,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 5,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes) and alternating temperatures (secondstressor),20,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,20,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 6,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes) and alternating temperatures (secondstressor),11,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,20,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 7,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes) and alternating temperatures (secondstressor),8,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,20,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 8,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes) and alternating temperatures (secondstressor),5,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,20,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 9,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes) and alternating temperatures (secondstressor),3,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,20,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 10,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes) and alternating temperatures (secondstressor),1,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,20,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 11,TRUE,01/01/2013
NA,JOE107,survival,percent survivorship of adult mosquitoes as a function of time (see notes) and alternating temperatures (secondstressor),0,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,20,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,trait value is suvivorship percentage observed on day 12,TRUE,01/01/2013
NA,JOE108,survival,percentage surviving life stage as a function of exposure to dengue-1 virus,89.05,percent,4.975,4.975,se,NA,7,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,20,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2A,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE108,survival,percent surviving life stage as a function of exposure to dengue-1 virus and alternating temperatures,90.05,percent,4.726,4.726,se,NA,7,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,30,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,20,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2A,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE108,survival,percent surviving life stage as a function of exposure to dengue-1 virus and alternating temperatures,76.12,percent,4.975,4.975,se,NA,7,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,20,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2A,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE108,survival,percentage surviving life stage as a function of exposure to dengue-1 virus,90.3,percent,4.478,4.478,se,NA,7,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2A,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE108,survival,percentage surviving life stage as a function of exposure to dengue-1 virus,93.53,percent,4.229,4.229,se,NA,7,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2A,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE109,development time,mean duration of life stage as a function of alternating temperatures and exposure to dengue-virus,24.74,days,0.464,0.464,se,NA,7,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,420,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,20,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2B,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE109,development time,mean duration of life stage as a function of alternating temperatures and exposure to dengue-virus,20.57,days,0.309,0.309,se,NA,7,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,420,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,20,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2B,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE109,development time,mean duration of life stage as a function of alternating temperatures and exposure to dengue-virus,11.75,days,0.309,0.309,se,NA,7,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor (juvenile) temp and interactor1temp (adult) secondstressor is the larval temp and interac,30,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,420,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,20,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2B,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE109,development time,mean duration of life stage as a function of alternating temperatures and exposure to dengue-virus,9.59,days,0.309,0.309,se,NA,7,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor (juvenile) temp and interactor1temp (adult) secondstressor is the larval temp and interac,30,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,420,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,20,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2B,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE109,development time,mean duration of life stage as a function of alternating temperatures and exposure to dengue-virus,24.28,days,0.464,0.464,se,NA,7,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor (juvenile) temp and interactor1temp (adult) secondstressor is the larval temp and interac,20,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,420,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2B,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE109,development time,mean duration of life stage as a function of alternating temperatures and exposure to dengue-virus,20.41,days,0.309,0.309,se,NA,7,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor (juvenile) temp and interactor1temp (adult) secondstressor is the larval temp and interac,20,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,420,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2B,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE109,development time,mean duration of life stage as a function of alternating temperatures and exposure to dengue-virus,11.6,days,0.464,0.464,se,NA,7,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,420,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2B,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE109,development time,mean duration of life stage as a function of alternating temperatures and exposure to dengue-virus,9.43,days,0.464,0.464,se,NA,7,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,420,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2B,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE109,development time,mean duration of life stage as a function of alternating temperatures and exposure to dengue-virus,14.38,days,0.464,0.464,se,NA,7,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,420,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2B,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE109,development time,mean duration of life stage as a function of alternating temperatures and exposure to dengue-virus,11.75,days,0.309,0.309,se,NA,7,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,420,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2B,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE110,body size,wing length as a function of exposure to dengue-1 virus,2.93,mm,0.079,0.079,se,NA,7,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,20,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2C,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE110,body size,wing length as a function of exposure to dengue-1 virus and  alternating temperatures,1.92,mm,0.079,0.079,se,NA,7,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,30,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,20,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2C,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE110,body size,wing length as a function of exposure to dengue-1 virus and  alternating temperatures,2.77,mm,0.079,0.079,se,NA,7,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,20,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2C,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE110,body size,wing length as a function of exposure to dengue-1 virus,1.84,mm,0.068,0.068,se,NA,7,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2C,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE110,body size,wing length as a function of exposure to dengue-1 virus,2.36,mm,0.068,0.068,se,NA,7,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2C,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE111,vector competence,mean percent susceptibility to dengue virus infection,78.09,percent,4.786,4.786,se,NA,7,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,141,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE111,vector competence,mean percent dissemination of dengue virus,6.05,percent,5.038,5.038,se,NA,7,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,141,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE111,vector competence,mean percent susceptibility to dengue virus infection as a function of alternating temperatures,72.54,percent,4.786,4.786,se,NA,7,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,30,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,144,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE111,vector competence,mean percent dissemination of dengue virus as a function of alternating temperatures,3.78,percent,4.786,4.786,se,NA,7,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,30,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,144,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE111,vector competence,mean percent susceptibility to dengue virus infection as a function of alternating temperatures,64.23,percent,4.534,4.534,se,NA,7,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,20,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,85,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE111,vector competence,mean percent dissemination of dengue virus as a function of alternating temperatures,76.32,percent,4.786,4.786,se,NA,7,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,20,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,85,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE111,vector competence,mean percent susceptibility to dengue virus infection,65.49,percent,4.786,4.786,se,NA,7,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,125,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE111,vector competence,mean percent dissemination of dengue virus,96.22,percent,3.778,3.778,se,NA,7,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,125,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE111,vector competence,mean percent susceptibility to dengue virus infection,73.05,percent,4.534,4.534,se,NA,7,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,138,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE111,vector competence,mean percent dissemination of dengue virus,67.25,percent,4.534,4.534,se,NA,7,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,138,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE112,viral titers,log10 number of plaque forming units (non-disseminated infection),4.1,units ml-1,0.254,0.254,se,NA,7,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,141,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE112,viral titers,log10 number of plaque forming units (disseminated infection),4.27,units ml-1,0.188,0.188,se,NA,7,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,141,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE112,viral titers,log10 number of plaque forming units (leg infection),3.56,units ml-1,0.254,0.254,se,NA,7,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,141,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE112,viral titers,log10 number of plaque forming units (non-disseminated infection),3.7,units ml-1,0.241,0.241,se,NA,7,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,30,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,144,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE112,viral titers,log10 number of plaque forming units (disseminated infection),4.85,units ml-1,0.241,0.241,se,NA,7,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,30,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,144,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE112,viral titers,log10 number of plaque forming units (leg infection),2.13,units ml-1,0.321,0.321,se,NA,7,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,30,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,144,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE112,viral titers,log10 number of plaque forming units (non-disseminated infection),4.51,units ml-1,0.295,0.295,se,NA,7,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,20,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,85,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE112,viral titers,log10 number of plaque forming units (disseminated infection),5.48,units ml-1,0.161,0.161,se,NA,7,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,20,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,85,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE112,viral titers,log10 number of plaque forming units (leg infection),3.88,units ml-1,0.201,0.201,se,NA,7,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,alternating temperatures,temperatures alternated between secondstressor temp and interactor1temp,20,Celsius,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,85,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE112,viral titers,log10 number of plaque forming units (non-disseminated infection),2.89,units ml-1,0.362,0.362,se,NA,7,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,125,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE112,viral titers,log10 number of plaque forming units (disseminated infection),5.1,units ml-1,0.161,0.161,se,NA,7,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,125,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE112,viral titers,log10 number of plaque forming units (leg infection),3.91,units ml-1,0.201,0.201,se,NA,7,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,125,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE112,viral titers,log10 number of plaque forming units (non-disseminated infection),4.97,units ml-1,0.241,0.241,se,NA,7,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,138,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE112,viral titers,log10 number of plaque forming units (disseminated infection),5.38,units ml-1,0.147,0.147,se,NA,7,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,138,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE112,viral titers,log10 number of plaque forming units (leg infection),3.28,units ml-1,0.214,0.214,se,NA,7,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,138,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Alto and Bettinardi. 2013. Temperature and Dengue Virus Infection in Mosquitoes: Independent Effects on the Immature and Adult Stages. American Journal of Tropical Medicine and Hygiene 88:3,10.4269/ajtmh.12-0421,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,PHX4,mortality rate,per capita daily mortality,0.0087,individual-1 day-1,0.0011,0.0011,se,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,St Louis Illinois USA,field (F1),NA,0,decimal,38.625,-90.1575,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,see notes,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Alto and Juliano 2001. Temperature effects on the dynamics of Aedes albopictus (Diptera: Culicidae) populations in the laboratory. J. Med. Entomol. 38: 4,10.1603/0022-2585-38.4.548,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1growthtemp ranged between 22 and 27 degrees Celsius,TRUE,01/01/2001
NA,PHX4,mortality rate,per capita daily mortality,0.0114,individual-1 day-1,0.0016,0.0016,se,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,St Louis Illinois USA,field (F1),NA,0,decimal,38.625,-90.1575,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,24,Celsius,NA,NA,see notes,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Alto and Juliano 2001. Temperature effects on the dynamics of Aedes albopictus (Diptera: Culicidae) populations in the laboratory. J. Med. Entomol. 38: 4,10.1603/0022-2585-38.4.548,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1growthtemp ranged between 22 and 27 degrees Celsius,TRUE,01/01/2001
NA,PHX4,mortality rate,per capita daily mortality,0.0124,individual-1 day-1,0.0031,0.0031,se,NA,2,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,St Louis Illinois USA,field (F1),NA,0,decimal,38.625,-90.1575,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,see notes,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Alto and Juliano 2001. Temperature effects on the dynamics of Aedes albopictus (Diptera: Culicidae) populations in the laboratory. J. Med. Entomol. 38: 4,10.1603/0022-2585-38.4.548,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1growthtemp ranged between 22 and 27 degrees Celsius,TRUE,01/01/2001
NA,NA,mortality rate,mean per capita daily rate of mortality,0.009,individual-1 day-1,0.0035,0.0035,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,St Louis Illinois USA,field (F1),NA,0,decimal,38.625,-90.157,Aedes albopictus,NA,NA,NA,700,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,22,Celsius,NA,24.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Alto and Juliano. 2001. Precipitation and temperature effects on populations of Aedes albopictus. J. Med. Entomol. 38:5 (Diptera: Culicidae): Implications for Range Expansion. Journal of Medical Entomology 35:5,10.1603/0022-2585-38.5.646,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is an approximation of the number of individuals at the start of the experiment based on the text. interactor1growthtemp is the midpoint of the range of temperatures that individuals were exposed prior to the start of the experiment,TRUE,01/01/2001
NA,NA,mortality rate,mean per capita daily rate of mortality,0.0151,individual-1 day-1,0.0033,0.0033,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,St Louis Illinois USA,field (F1),NA,0,decimal,38.625,-90.157,Aedes albopictus,NA,NA,NA,700,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,26,Celsius,NA,24.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Alto and Juliano. 2001. Precipitation and temperature effects on populations of Aedes albopictus. J. Med. Entomol. 38:5 (Diptera: Culicidae): Implications for Range Expansion. Journal of Medical Entomology 35:5,10.1603/0022-2585-38.5.646,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is an approximation of the number of individuals at the start of the experiment based on the text. interactor1growthtemp is the midpoint of the range of temperatures that individuals were exposed prior to the start of the experiment,TRUE,01/01/2001
NA,NA,mortality rate,mean per capita daily rate of mortality,0.033,individual-1 day-1,0.0034,0.0034,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,St Louis Illinois USA,field (F1),NA,0,decimal,38.625,-90.157,Aedes albopictus,NA,NA,NA,700,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,30,Celsius,NA,24.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Alto and Juliano. 2001. Precipitation and temperature effects on populations of Aedes albopictus. J. Med. Entomol. 38:5 (Diptera: Culicidae): Implications for Range Expansion. Journal of Medical Entomology 35:5,10.1603/0022-2585-38.5.646,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is an approximation of the number of individuals at the start of the experiment based on the text. interactor1growthtemp is the midpoint of the range of temperatures that individuals were exposed prior to the start of the experiment,TRUE,01/01/2001
NA,NA,development time,median duration of life stage,15.43,days,0.98,0.98,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,St Louis Illinois USA,field (F1),NA,0,decimal,38.625,-90.157,Aedes albopictus,NA,NA,NA,350,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,22,Celsius,NA,24.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Alto and Juliano. 2001. Precipitation and temperature effects on populations of Aedes albopictus. J. Med. Entomol. 38:5 (Diptera: Culicidae): Implications for Range Expansion. Journal of Medical Entomology 35:5,10.1603/0022-2585-38.5.646,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is an approximation of the number of individuals at the start of the experiment based on the text multiplied by 0.5 to give a 1:1 sex ratio. interactor1growthtemp is the midpoint of the range of temperatures that individuals were exposed prior to the start of the experiment,TRUE,01/01/2001
NA,NA,development time,median duration of life stage,14.69,days,1.2,1.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,St Louis Illinois USA,field (F1),NA,0,decimal,38.625,-90.157,Aedes albopictus,NA,NA,NA,350,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,22,Celsius,NA,24.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Alto and Juliano. 2001. Precipitation and temperature effects on populations of Aedes albopictus. J. Med. Entomol. 38:5 (Diptera: Culicidae): Implications for Range Expansion. Journal of Medical Entomology 35:5,10.1603/0022-2585-38.5.646,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is an approximation of the number of individuals at the start of the experiment based on the text multiplied by 0.5 to give a 1:1 sex ratio. interactor1growthtemp is the midpoint of the range of temperatures that individuals were exposed prior to the start of the experiment,TRUE,01/01/2001
NA,NA,development time,median duration of life stage,12.22,days,1.09,1.09,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,St Louis Illinois USA,field (F1),NA,0,decimal,38.625,-90.157,Aedes albopictus,NA,NA,NA,350,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,26,Celsius,NA,24.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Alto and Juliano. 2001. Precipitation and temperature effects on populations of Aedes albopictus. J. Med. Entomol. 38:5 (Diptera: Culicidae): Implications for Range Expansion. Journal of Medical Entomology 35:5,10.1603/0022-2585-38.5.646,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is an approximation of the number of individuals at the start of the experiment based on the text multiplied by 0.5 to give a 1:1 sex ratio. interactor1growthtemp is the midpoint of the range of temperatures that individuals were exposed prior to the start of the experiment,TRUE,01/01/2001
NA,NA,development time,median duration of life stage,11.99,days,1.31,1.31,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,St Louis Illinois USA,field (F1),NA,0,decimal,38.625,-90.157,Aedes albopictus,NA,NA,NA,350,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,26,Celsius,NA,24.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Alto and Juliano. 2001. Precipitation and temperature effects on populations of Aedes albopictus. J. Med. Entomol. 38:5 (Diptera: Culicidae): Implications for Range Expansion. Journal of Medical Entomology 35:5,10.1603/0022-2585-38.5.646,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is an approximation of the number of individuals at the start of the experiment based on the text multiplied by 0.5 to give a 1:1 sex ratio. interactor1growthtemp is the midpoint of the range of temperatures that individuals were exposed prior to the start of the experiment,TRUE,01/01/2001
NA,NA,development time,median duration of life stage,10.48,days,1.12,1.12,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,St Louis Illinois USA,field (F1),NA,0,decimal,38.625,-90.157,Aedes albopictus,NA,NA,NA,350,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,30,Celsius,NA,24.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Alto and Juliano. 2001. Precipitation and temperature effects on populations of Aedes albopictus. J. Med. Entomol. 38:5 (Diptera: Culicidae): Implications for Range Expansion. Journal of Medical Entomology 35:5,10.1603/0022-2585-38.5.646,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is an approximation of the number of individuals at the start of the experiment based on the text multiplied by 0.5 to give a 1:1 sex ratio. interactor1growthtemp is the midpoint of the range of temperatures that individuals were exposed prior to the start of the experiment,TRUE,01/01/2001
NA,NA,development time,median duration of life stage,10.2,days,1.31,1.31,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,St Louis Illinois USA,field (F1),NA,0,decimal,38.625,-90.157,Aedes albopictus,NA,NA,NA,350,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,30,Celsius,NA,24.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Alto and Juliano. 2001. Precipitation and temperature effects on populations of Aedes albopictus. J. Med. Entomol. 38:5 (Diptera: Culicidae): Implications for Range Expansion. Journal of Medical Entomology 35:5,10.1603/0022-2585-38.5.646,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is an approximation of the number of individuals at the start of the experiment based on the text multiplied by 0.5 to give a 1:1 sex ratio. interactor1growthtemp is the midpoint of the range of temperatures that individuals were exposed prior to the start of the experiment,TRUE,01/01/2001
NA,NA,survival,mean percentage of eggs that hatched,91.2,percent,2.39,2.39,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bello Columbia,field (F2),01/01/2016,1,decimal,6.333333,-75.566667,Aedes aegypti,NA,NA,NA,465,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,21,Celsius,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s10,Arevalo-Cortes et al. 2022. Differential hatching development oviposition and longevity patterns among Colombian Aedes aegypti populations. Insects 13:6,10.3390/insects13060536,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived from n=500 tested (n=100 in 5 replicates),TRUE,01/01/2022
NA,NA,survival,mean percentage of eggs that hatched,98.8,percent,1.5,1.5,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bello Columbia,field (F2),01/01/2016,1,decimal,6.333333,-75.566667,Aedes aegypti,NA,NA,NA,494,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,28,Celsius,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s10,Arevalo-Cortes et al. 2022. Differential hatching development oviposition and longevity patterns among Colombian Aedes aegypti populations. Insects 13:6,10.3390/insects13060536,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived from n=500 tested (n=100 in 5 replicates),TRUE,01/01/2022
NA,NA,survival,mean percentage of eggs that hatched,68.8,percent,9.2,9.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bello Columbia,field (F2),01/01/2016,1,decimal,6.333333,-75.566667,Aedes aegypti,NA,NA,NA,344,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,35,Celsius,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s10,Arevalo-Cortes et al. 2022. Differential hatching development oviposition and longevity patterns among Colombian Aedes aegypti populations. Insects 13:6,10.3390/insects13060536,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived from n=500 tested (n=100 in 5 replicates),TRUE,01/01/2022
NA,NA,pupation rate,mean percentage of larvae that pupated,79.8,percent,4.9,4.9,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bello Columbia,field (F2),01/01/2016,1,decimal,6.333333,-75.566667,Aedes aegypti,NA,NA,NA,399,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s9,Arevalo-Cortes et al. 2022. Differential hatching development oviposition and longevity patterns among Colombian Aedes aegypti populations. Insects 13:6,10.3390/insects13060536,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived from n=500 tested (n=100 in 5 replicates),TRUE,01/01/2022
NA,NA,pupation rate,mean percentage of larvae that pupated,90.3,percent,5.2,5.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bello Columbia,field (F2),01/01/2016,1,decimal,6.333333,-75.566667,Aedes aegypti,NA,NA,NA,452,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,28,Celsius,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s9,Arevalo-Cortes et al. 2022. Differential hatching development oviposition and longevity patterns among Colombian Aedes aegypti populations. Insects 13:6,10.3390/insects13060536,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived from n=500 tested (n=100 in 5 replicates),TRUE,01/01/2022
NA,NA,pupation rate,mean percentage of larvae that pupated,60,percent,6.93,6.93,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bello Columbia,field (F2),01/01/2016,1,decimal,6.333333,-75.566667,Aedes aegypti,NA,NA,NA,300,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,35,Celsius,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s9,Arevalo-Cortes et al. 2022. Differential hatching development oviposition and longevity patterns among Colombian Aedes aegypti populations. Insects 13:6,10.3390/insects13060536,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived from n=500 tested (n=100 in 5 replicates),TRUE,01/01/2022
NA,NA,survival,mean percentage surviving life stage,76.2,percent,4.97,4.97,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bello Columbia,field (F2),01/01/2016,1,decimal,6.333333,-75.566667,Aedes aegypti,NA,NA,NA,381,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,21,Celsius,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s9,Arevalo-Cortes et al. 2022. Differential hatching development oviposition and longevity patterns among Colombian Aedes aegypti populations. Insects 13:6,10.3390/insects13060536,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived from n=500 tested (n=100 in 5 replicates),TRUE,01/01/2022
NA,NA,survival,mean percentage surviving life stage,84.74,percent,1.71,1.71,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bello Columbia,field (F2),01/01/2016,1,decimal,6.333333,-75.566667,Aedes aegypti,NA,NA,NA,424,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,28,Celsius,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s9,Arevalo-Cortes et al. 2022. Differential hatching development oviposition and longevity patterns among Colombian Aedes aegypti populations. Insects 13:6,10.3390/insects13060536,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived from n=500 tested (n=100 in 5 replicates),TRUE,01/01/2022
NA,NA,survival,mean percentage surviving life stage,53.4,percent,8.5,8.5,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bello Columbia,field (F2),01/01/2016,1,decimal,6.333333,-75.566667,Aedes aegypti,NA,NA,NA,267,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,35,Celsius,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s9,Arevalo-Cortes et al. 2022. Differential hatching development oviposition and longevity patterns among Colombian Aedes aegypti populations. Insects 13:6,10.3390/insects13060536,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived from n=500 tested (n=100 in 5 replicates),TRUE,01/01/2022
NA,NA,survival,mean percentage of eggs that hatched,83.4,percent,7.57,7.57,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Neiva Columbia,field (F2),01/01/2016,1,decimal,2.934483,-75.2809,Aedes aegypti,NA,NA,NA,417,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,21,Celsius,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s10,Arevalo-Cortes et al. 2022. Differential hatching development oviposition and longevity patterns among Colombian Aedes aegypti populations. Insects 13:6,10.3390/insects13060536,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived from n=500 tested (n=100 in 5 replicates),TRUE,01/01/2022
NA,NA,survival,mean percentage of eggs that hatched,89.75,percent,2.22,2.22,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Neiva Columbia,field (F2),01/01/2016,1,decimal,2.934483,-75.2809,Aedes aegypti,NA,NA,NA,449,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,28,Celsius,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s10,Arevalo-Cortes et al. 2022. Differential hatching development oviposition and longevity patterns among Colombian Aedes aegypti populations. Insects 13:6,10.3390/insects13060536,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived from n=500 tested (n=100 in 5 replicates),TRUE,01/01/2022
NA,NA,survival,mean percentage of eggs that hatched,17.4,percent,6.54,6.54,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Neiva Columbia,field (F2),01/01/2016,1,decimal,2.934483,-75.2809,Aedes aegypti,NA,NA,NA,87,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,35,Celsius,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s10,Arevalo-Cortes et al. 2022. Differential hatching development oviposition and longevity patterns among Colombian Aedes aegypti populations. Insects 13:6,10.3390/insects13060536,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived from n=500 tested (n=100 in 5 replicates),TRUE,01/01/2022
NA,NA,pupation rate,mean percentage of larvae that pupated,75.2,percent,7.5,7.5,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Neiva Columbia,field (F2),01/01/2016,1,decimal,2.934483,-75.2809,Aedes aegypti,NA,NA,NA,376,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s9,Arevalo-Cortes et al. 2022. Differential hatching development oviposition and longevity patterns among Colombian Aedes aegypti populations. Insects 13:6,10.3390/insects13060536,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived from n=500 tested (n=100 in 5 replicates),TRUE,01/01/2022
NA,NA,pupation rate,mean percentage of larvae that pupated,85.5,percent,1.7,1.7,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Neiva Columbia,field (F2),01/01/2016,1,decimal,2.934483,-75.2809,Aedes aegypti,NA,NA,NA,428,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,28,Celsius,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s9,Arevalo-Cortes et al. 2022. Differential hatching development oviposition and longevity patterns among Colombian Aedes aegypti populations. Insects 13:6,10.3390/insects13060536,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived from n=500 tested (n=100 in 5 replicates),TRUE,01/01/2022
NA,NA,pupation rate,mean percentage of larvae that pupated,13,percent,5.15,5.15,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Neiva Columbia,field (F2),01/01/2016,1,decimal,2.934483,-75.2809,Aedes aegypti,NA,NA,NA,65,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,35,Celsius,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s9,Arevalo-Cortes et al. 2022. Differential hatching development oviposition and longevity patterns among Colombian Aedes aegypti populations. Insects 13:6,10.3390/insects13060536,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived from n=500 tested (n=100 in 5 replicates),TRUE,01/01/2022
NA,NA,survival,mean percentage surviving life stage,73.6,percent,8.1,8.1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Neiva Columbia,field (F2),01/01/2016,1,decimal,2.934483,-75.2809,Aedes aegypti,NA,NA,NA,368,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,21,Celsius,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s9,Arevalo-Cortes et al. 2022. Differential hatching development oviposition and longevity patterns among Colombian Aedes aegypti populations. Insects 13:6,10.3390/insects13060536,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived from n=500 tested (n=100 in 5 replicates),TRUE,01/01/2022
NA,NA,survival,mean percentage surviving life stage,84.3,percent,1.71,1.71,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Neiva Columbia,field (F2),01/01/2016,1,decimal,2.934483,-75.2809,Aedes aegypti,NA,NA,NA,422,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,28,Celsius,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s9,Arevalo-Cortes et al. 2022. Differential hatching development oviposition and longevity patterns among Colombian Aedes aegypti populations. Insects 13:6,10.3390/insects13060536,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived from n=500 tested (n=100 in 5 replicates),TRUE,01/01/2022
NA,NA,survival,mean percentage surviving life stage,12.4,percent,4.83,4.83,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Neiva Columbia,field (F2),01/01/2016,1,decimal,2.934483,-75.2809,Aedes aegypti,NA,NA,NA,62,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,35,Celsius,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s9,Arevalo-Cortes et al. 2022. Differential hatching development oviposition and longevity patterns among Colombian Aedes aegypti populations. Insects 13:6,10.3390/insects13060536,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived from n=500 tested (n=100 in 5 replicates),TRUE,01/01/2022
NA,NA,survival,mean percentage of eggs that hatched,92.6,percent,5.03,5.03,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,463,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,21,Celsius,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s10,Arevalo-Cortes et al. 2022. Differential hatching development oviposition and longevity patterns among Colombian Aedes aegypti populations. Insects 13:6,10.3390/insects13060536,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived from n=500 tested (n=100 in 5 replicates),TRUE,01/01/2022
NA,NA,survival,mean percentage of eggs that hatched,98.8,percent,1.5,1.5,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,494,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,28,Celsius,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s10,Arevalo-Cortes et al. 2022. Differential hatching development oviposition and longevity patterns among Colombian Aedes aegypti populations. Insects 13:6,10.3390/insects13060536,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived from n=500 tested (n=100 in 5 replicates),TRUE,01/01/2022
NA,NA,survival,mean percentage of eggs that hatched,66,percent,11.96,11.96,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,330,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,35,Celsius,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s10,Arevalo-Cortes et al. 2022. Differential hatching development oviposition and longevity patterns among Colombian Aedes aegypti populations. Insects 13:6,10.3390/insects13060536,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived from n=500 tested (n=100 in 5 replicates),TRUE,01/01/2022
NA,NA,pupation rate,mean percentage of larvae that pupated,86.4,percent,2.3,2.3,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,432,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s9,Arevalo-Cortes et al. 2022. Differential hatching development oviposition and longevity patterns among Colombian Aedes aegypti populations. Insects 13:6,10.3390/insects13060536,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived from n=500 tested (n=100 in 5 replicates),TRUE,01/01/2022
NA,NA,pupation rate,mean percentage of larvae that pupated,94,percent,2.8,2.8,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,470,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,28,Celsius,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s9,Arevalo-Cortes et al. 2022. Differential hatching development oviposition and longevity patterns among Colombian Aedes aegypti populations. Insects 13:6,10.3390/insects13060536,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived from n=500 tested (n=100 in 5 replicates),TRUE,01/01/2022
NA,NA,pupation rate,mean percentage of larvae that pupated,52.6,percent,9.2,9.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,263,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,35,Celsius,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s9,Arevalo-Cortes et al. 2022. Differential hatching development oviposition and longevity patterns among Colombian Aedes aegypti populations. Insects 13:6,10.3390/insects13060536,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived from n=500 tested (n=100 in 5 replicates),TRUE,01/01/2022
NA,NA,survival,mean percentage surviving life stage,85.6,percent,2.7,2.7,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,428,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,21,Celsius,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s9,Arevalo-Cortes et al. 2022. Differential hatching development oviposition and longevity patterns among Colombian Aedes aegypti populations. Insects 13:6,10.3390/insects13060536,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived from n=500 tested (5 replicates comprised of n=100 in each replicate),TRUE,01/01/2022
NA,NA,survival,mean percentage surviving life stage,94,percent,2.8,2.8,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,470,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,28,Celsius,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s9,Arevalo-Cortes et al. 2022. Differential hatching development oviposition and longevity patterns among Colombian Aedes aegypti populations. Insects 13:6,10.3390/insects13060536,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived from n=500 tested (5 replicates comprised of n=100 in each replicate),TRUE,01/01/2022
NA,NA,survival,mean percentage surviving life stage,51,percent,9.1,9.1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,255,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,35,Celsius,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s9,Arevalo-Cortes et al. 2022. Differential hatching development oviposition and longevity patterns among Colombian Aedes aegypti populations. Insects 13:6,10.3390/insects13060536,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived from n=500 tested (5 replicates comprised of n=100 in each replicate),TRUE,01/01/2022
NA,NA,development time,mean life stage duration,23.56,days,10.22,10.22,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bello Columbia,field (F2),01/01/2016,1,decimal,6.333333,-75.566667,Aedes aegypti,NA,NA,NA,191,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),male,21,Celsius,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s8,Arevalo-Cortes et al. 2022. Differential hatching development oviposition and longevity patterns among Colombian Aedes aegypti populations. Insects 13:6,10.3390/insects13060536,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived from n=500 tested (n=100 in 5 replicates) multiplied by 0.5 to give a 1:1 sex ratio,TRUE,01/01/2022
NA,NA,development time,mean life stage duration,10.79,days,3.37,3.37,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bello Columbia,field (F2),01/01/2016,1,decimal,6.333333,-75.566667,Aedes aegypti,NA,NA,NA,212,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),male,28,Celsius,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s8,Arevalo-Cortes et al. 2022. Differential hatching development oviposition and longevity patterns among Colombian Aedes aegypti populations. Insects 13:6,10.3390/insects13060536,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived from n=500 tested (n=100 in 5 replicates) multiplied by 0.5 to give a 1:1 sex ratio,TRUE,01/01/2022
NA,NA,development time,mean life stage duration,35.98,days,16.96,16.96,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bello Columbia,field (F2),01/01/2016,1,decimal,6.333333,-75.566667,Aedes aegypti,NA,NA,NA,134,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),male,35,Celsius,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s8,Arevalo-Cortes et al. 2022. Differential hatching development oviposition and longevity patterns among Colombian Aedes aegypti populations. Insects 13:6,10.3390/insects13060536,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived from n=500 tested (n=100 in 5 replicates) multiplied by 0.5 to give a 1:1 sex ratio,TRUE,01/01/2022
NA,NA,development time,mean life stage duration,24.2,days,10.01,10.01,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bello Columbia,field (F2),01/01/2016,1,decimal,6.333333,-75.566667,Aedes aegypti,NA,NA,NA,191,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),female,21,Celsius,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s8,Arevalo-Cortes et al. 2022. Differential hatching development oviposition and longevity patterns among Colombian Aedes aegypti populations. Insects 13:6,10.3390/insects13060536,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived from n=500 tested (n=100 in 5 replicates) multiplied by 0.5 to give a 1:1 sex ratio,TRUE,01/01/2022
NA,NA,development time,mean life stage duration,11.37,days,3.82,3.82,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bello Columbia,field (F2),01/01/2016,1,decimal,6.333333,-75.566667,Aedes aegypti,NA,NA,NA,212,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),female,28,Celsius,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s8,Arevalo-Cortes et al. 2022. Differential hatching development oviposition and longevity patterns among Colombian Aedes aegypti populations. Insects 13:6,10.3390/insects13060536,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived from n=500 tested (n=100 in 5 replicates) multiplied by 0.5 to give a 1:1 sex ratio,TRUE,01/01/2022
NA,NA,development time,mean life stage duration,36.29,days,17.09,17.09,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bello Columbia,field (F2),01/01/2016,1,decimal,6.333333,-75.566667,Aedes aegypti,NA,NA,NA,134,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),female,35,Celsius,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s8,Arevalo-Cortes et al. 2022. Differential hatching development oviposition and longevity patterns among Colombian Aedes aegypti populations. Insects 13:6,10.3390/insects13060536,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived from n=500 tested (n=100 in 5 replicates) multiplied by 0.5 to give a 1:1 sex ratio,TRUE,01/01/2022
NA,NA,development time,mean life stage duration,26.52,days,36.51,36.51,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Neiva Columbia,field (F2),01/01/2016,1,decimal,2.934483,-75.2809,Aedes aegypti,NA,NA,NA,184,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),male,21,Celsius,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s8,Arevalo-Cortes et al. 2022. Differential hatching development oviposition and longevity patterns among Colombian Aedes aegypti populations. Insects 13:6,10.3390/insects13060536,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived from n=500 tested (n=100 in 5 replicates) multiplied by 0.5 to give a 1:1 sex ratio,TRUE,01/01/2022
NA,NA,development time,mean life stage duration,19.11,days,7.84,7.84,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Neiva Columbia,field (F2),01/01/2016,1,decimal,2.934483,-75.2809,Aedes aegypti,NA,NA,NA,211,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),male,28,Celsius,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s8,Arevalo-Cortes et al. 2022. Differential hatching development oviposition and longevity patterns among Colombian Aedes aegypti populations. Insects 13:6,10.3390/insects13060536,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived from n=500 tested (n=100 in 5 replicates) multiplied by 0.5 to give a 1:1 sex ratio,TRUE,01/01/2022
NA,NA,development time,mean life stage duration,27.01,days,21.76,21.76,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Neiva Columbia,field (F2),01/01/2016,1,decimal,2.934483,-75.2809,Aedes aegypti,NA,NA,NA,31,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),male,35,Celsius,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s8,Arevalo-Cortes et al. 2022. Differential hatching development oviposition and longevity patterns among Colombian Aedes aegypti populations. Insects 13:6,10.3390/insects13060536,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived from n=500 tested (n=100 in 5 replicates) multiplied by 0.5 to give a 1:1 sex ratio,TRUE,01/01/2022
NA,NA,development time,mean life stage duration,27.26,days,36.56,36.56,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Neiva Columbia,field (F2),01/01/2016,1,decimal,2.934483,-75.2809,Aedes aegypti,NA,NA,NA,184,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),female,21,Celsius,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s8,Arevalo-Cortes et al. 2022. Differential hatching development oviposition and longevity patterns among Colombian Aedes aegypti populations. Insects 13:6,10.3390/insects13060536,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived from n=500 tested (n=100 in 5 replicates) multiplied by 0.5 to give a 1:1 sex ratio,TRUE,01/01/2022
NA,NA,development time,mean life stage duration,20.06,days,7.61,7.61,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Neiva Columbia,field (F2),01/01/2016,1,decimal,2.934483,-75.2809,Aedes aegypti,NA,NA,NA,211,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),female,28,Celsius,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s8,Arevalo-Cortes et al. 2022. Differential hatching development oviposition and longevity patterns among Colombian Aedes aegypti populations. Insects 13:6,10.3390/insects13060536,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived from n=500 tested (n=100 in 5 replicates) multiplied by 0.5 to give a 1:1 sex ratio,TRUE,01/01/2022
NA,NA,development time,mean life stage duration,29.9,days,23.75,23.75,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Neiva Columbia,field (F2),01/01/2016,1,decimal,2.934483,-75.2809,Aedes aegypti,NA,NA,NA,31,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),female,35,Celsius,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s8,Arevalo-Cortes et al. 2022. Differential hatching development oviposition and longevity patterns among Colombian Aedes aegypti populations. Insects 13:6,10.3390/insects13060536,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived from n=500 tested (n=100 in 5 replicates) multiplied by 0.5 to give a 1:1 sex ratio,TRUE,01/01/2022
NA,NA,development time,mean life stage duration,27.9,days,23.25,23.25,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,214,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),male,21,Celsius,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s8,Arevalo-Cortes et al. 2022. Differential hatching development oviposition and longevity patterns among Colombian Aedes aegypti populations. Insects 13:6,10.3390/insects13060536,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived from n=500 tested (n=100 in 5 replicates) multiplied by 0.5 to give a 1:1 sex ratio,TRUE,01/01/2022
NA,NA,development time,mean life stage duration,17.56,days,11.4,11.4,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,235,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),male,28,Celsius,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s8,Arevalo-Cortes et al. 2022. Differential hatching development oviposition and longevity patterns among Colombian Aedes aegypti populations. Insects 13:6,10.3390/insects13060536,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived from n=500 tested (n=100 in 5 replicates) multiplied by 0.5 to give a 1:1 sex ratio,TRUE,01/01/2022
NA,NA,development time,mean life stage duration,31.6,days,19.98,19.98,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,128,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),male,35,Celsius,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s8,Arevalo-Cortes et al. 2022. Differential hatching development oviposition and longevity patterns among Colombian Aedes aegypti populations. Insects 13:6,10.3390/insects13060536,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived from n=500 tested (n=100 in 5 replicates) multiplied by 0.5 to give a 1:1 sex ratio,TRUE,01/01/2022
NA,NA,development time,mean life stage duration,28.82,days,22.85,22.85,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,214,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),female,21,Celsius,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s8,Arevalo-Cortes et al. 2022. Differential hatching development oviposition and longevity patterns among Colombian Aedes aegypti populations. Insects 13:6,10.3390/insects13060536,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived from n=500 tested (n=100 in 5 replicates) multiplied by 0.5 to give a 1:1 sex ratio,TRUE,01/01/2022
NA,NA,development time,mean life stage duration,18.49,days,11.79,11.79,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,235,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),female,28,Celsius,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s8,Arevalo-Cortes et al. 2022. Differential hatching development oviposition and longevity patterns among Colombian Aedes aegypti populations. Insects 13:6,10.3390/insects13060536,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived from n=500 tested (n=100 in 5 replicates) multiplied by 0.5 to give a 1:1 sex ratio,TRUE,01/01/2022
NA,NA,development time,mean life stage duration,31.45,days,19.89,19.89,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,128,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),female,35,Celsius,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s8,Arevalo-Cortes et al. 2022. Differential hatching development oviposition and longevity patterns among Colombian Aedes aegypti populations. Insects 13:6,10.3390/insects13060536,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived from n=500 tested (n=100 in 5 replicates) multiplied by 0.5 to give a 1:1 sex ratio,TRUE,01/01/2022
NA,NA,development time,mean duration of life stage completion,8,days,0.39,0.39,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,field (F1 gen.),NA,0,decimal,3.105969797,101.5236483,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval (L1 to pupa),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Awang and Dom 2020. The effect of temperature on the development of immature stages of Aedes spp. against breeding containers. Int. J. Global Warming 21:3,10.1504/IJGW.2020.108671,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,24/07/2020
NA,NA,development time,mean duration of life stage completion,7.34,days,0.344,0.344,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,field (F1 gen.),NA,0,decimal,3.105969797,101.5236483,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval (L1 to pupa),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Awang and Dom 2020. The effect of temperature on the development of immature stages of Aedes spp. against breeding containers. Int. J. Global Warming 21:3,10.1504/IJGW.2020.108671,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,24/07/2020
NA,NA,development time,mean duration of life stage completion,5.75,days,0.283,0.283,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,field (F1 gen.),NA,0,decimal,3.105969797,101.5236483,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval (L1 to pupa),NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Awang and Dom 2020. The effect of temperature on the development of immature stages of Aedes spp. against breeding containers. Int. J. Global Warming 21:3,10.1504/IJGW.2020.108671,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,24/07/2020
NA,NA,development time,mean duration of life stage completion,5.62,days,0.273,0.273,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,field (F1 gen.),NA,0,decimal,3.105969797,101.5236483,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval (L1 to pupa),NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Awang and Dom 2020. The effect of temperature on the development of immature stages of Aedes spp. against breeding containers. Int. J. Global Warming 21:3,10.1504/IJGW.2020.108671,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,24/07/2020
NA,NA,development time,mean duration of life stage completion,5.65,days,0.263,0.263,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,field (F1 gen.),NA,0,decimal,3.105969797,101.5236483,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval (L1 to pupa),NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Awang and Dom 2020. The effect of temperature on the development of immature stages of Aedes spp. against breeding containers. Int. J. Global Warming 21:3,10.1504/IJGW.2020.108671,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,24/07/2020
NA,NA,development time,mean duration of life stage completion,5.68,days,0.273,0.273,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,field (F1 gen.),NA,0,decimal,3.105969797,101.5236483,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval (L1 to pupa),NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Awang and Dom 2020. The effect of temperature on the development of immature stages of Aedes spp. against breeding containers. Int. J. Global Warming 21:3,10.1504/IJGW.2020.108671,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,24/07/2020
NA,NA,development time,mean duration of life stage completion,5.08,days,0.253,0.253,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,field (F1 gen.),NA,0,decimal,3.105969797,101.5236483,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval (L1 to pupa),NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Awang and Dom 2020. The effect of temperature on the development of immature stages of Aedes spp. against breeding containers. Int. J. Global Warming 21:3,10.1504/IJGW.2020.108671,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,24/07/2020
NA,NA,development time,mean duration of life stage completion,5.68,days,0.273,0.273,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,field (F1 gen.),NA,0,decimal,3.105969797,101.5236483,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval (L1 to pupa),NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Awang and Dom 2020. The effect of temperature on the development of immature stages of Aedes spp. against breeding containers. Int. J. Global Warming 21:3,10.1504/IJGW.2020.108671,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,24/07/2020
NA,NA,development time,mean duration of life stage completion,11.34,days,0.567,0.567,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,field (F1 gen.),NA,0,decimal,3.105969797,101.5236483,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Awang and Dom 2020. The effect of temperature on the development of immature stages of Aedes spp. against breeding containers. Int. J. Global Warming 21:3,10.1504/IJGW.2020.108671,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,24/07/2020
NA,NA,development time,mean duration of life stage completion,10.67,days,0.527,0.527,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,field (F1 gen.),NA,0,decimal,3.105969797,101.5236483,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Awang and Dom 2020. The effect of temperature on the development of immature stages of Aedes spp. against breeding containers. Int. J. Global Warming 21:3,10.1504/IJGW.2020.108671,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,24/07/2020
NA,NA,development time,mean duration of life stage completion,9.35,days,0.506,0.506,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,field (F1 gen.),NA,0,decimal,3.105969797,101.5236483,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Awang and Dom 2020. The effect of temperature on the development of immature stages of Aedes spp. against breeding containers. Int. J. Global Warming 21:3,10.1504/IJGW.2020.108671,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,24/07/2020
NA,NA,development time,mean duration of life stage completion,8.4,days,0.425,0.425,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,field (F1 gen.),NA,0,decimal,3.105969797,101.5236483,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Awang and Dom 2020. The effect of temperature on the development of immature stages of Aedes spp. against breeding containers. Int. J. Global Warming 21:3,10.1504/IJGW.2020.108671,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,24/07/2020
NA,NA,development time,mean duration of life stage completion,11.04,days,0.567,0.567,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,field (F1 gen.),NA,0,decimal,3.105969797,101.5236483,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Awang and Dom 2020. The effect of temperature on the development of immature stages of Aedes spp. against breeding containers. Int. J. Global Warming 21:3,10.1504/IJGW.2020.108671,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,24/07/2020
NA,NA,development time,mean duration of life stage completion,9.08,days,0.446,0.446,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,field (F1 gen.),NA,0,decimal,3.105969797,101.5236483,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Awang and Dom 2020. The effect of temperature on the development of immature stages of Aedes spp. against breeding containers. Int. J. Global Warming 21:3,10.1504/IJGW.2020.108671,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,24/07/2020
NA,NA,development time,mean duration of life stage completion,8.04,days,0.425,0.425,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,field (F1 gen.),NA,0,decimal,3.105969797,101.5236483,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Awang and Dom 2020. The effect of temperature on the development of immature stages of Aedes spp. against breeding containers. Int. J. Global Warming 21:3,10.1504/IJGW.2020.108671,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,24/07/2020
NA,NA,development time,mean duration of life stage completion,7.76,days,0.425,0.425,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,field (F1 gen.),NA,0,decimal,3.105969797,101.5236483,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Awang and Dom 2020. The effect of temperature on the development of immature stages of Aedes spp. against breeding containers. Int. J. Global Warming 21:3,10.1504/IJGW.2020.108671,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,24/07/2020
NA,NA,development time,mean duration of life stage completion,7,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Melaka Malaysia,field (F1 gen.),NA,0,decimal,2.284767549,102.2868675,Aedes albopictus,NA,NA,NA,90,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval (L1 to pupa),NA,25,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1a,Awang et al. 2019. Effect of temperature on the embryronic development of Aedes albopictus (Diptera: Culicidae). Malaysian Journal of Fundamental and Applied Sciences 15:2,10.11113/mjfas.v15n2.1131,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage completion,5,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Melaka Malaysia,field (F1 gen.),NA,0,decimal,2.284767549,102.2868675,Aedes albopictus,NA,NA,NA,90,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval (L1 to pupa),NA,27,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1a,Awang et al. 2019. Effect of temperature on the embryronic development of Aedes albopictus (Diptera: Culicidae). Malaysian Journal of Fundamental and Applied Sciences 15:2,10.11113/mjfas.v15n2.1131,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage completion,5,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Melaka Malaysia,field (F1 gen.),NA,0,decimal,2.284767549,102.2868675,Aedes albopictus,NA,NA,NA,90,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval (L1 to pupa),NA,30,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1a,Awang et al. 2019. Effect of temperature on the embryronic development of Aedes albopictus (Diptera: Culicidae). Malaysian Journal of Fundamental and Applied Sciences 15:2,10.11113/mjfas.v15n2.1131,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage completion,4,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Melaka Malaysia,field (F1 gen.),NA,0,decimal,2.284767549,102.2868675,Aedes albopictus,NA,NA,NA,90,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval (L1 to pupa),NA,33,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1a,Awang et al. 2019. Effect of temperature on the embryronic development of Aedes albopictus (Diptera: Culicidae). Malaysian Journal of Fundamental and Applied Sciences 15:2,10.11113/mjfas.v15n2.1131,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage completion,3.3,days,0.33,0.33,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Melaka Malaysia,field (F1 gen.),NA,0,decimal,2.284767549,102.2868675,Aedes albopictus,NA,NA,NA,90,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval (L1 to pupa),NA,35,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1a,Awang et al. 2019. Effect of temperature on the embryronic development of Aedes albopictus (Diptera: Culicidae). Malaysian Journal of Fundamental and Applied Sciences 15:2,10.11113/mjfas.v15n2.1131,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage completion,8,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,field (F1 gen.),NA,0,decimal,3.105969797,101.5236483,Aedes albopictus,NA,NA,NA,90,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval (L1 to pupa),NA,25,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1a,Awang et al. 2019. Effect of temperature on the embryronic development of Aedes albopictus (Diptera: Culicidae). Malaysian Journal of Fundamental and Applied Sciences 15:2,10.11113/mjfas.v15n2.1131,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage completion,5.7,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,field (F1 gen.),NA,0,decimal,3.105969797,101.5236483,Aedes albopictus,NA,NA,NA,90,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval (L1 to pupa),NA,27,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1a,Awang et al. 2019. Effect of temperature on the embryronic development of Aedes albopictus (Diptera: Culicidae). Malaysian Journal of Fundamental and Applied Sciences 15:2,10.11113/mjfas.v15n2.1131,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage completion,5.6,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,field (F1 gen.),NA,0,decimal,3.105969797,101.5236483,Aedes albopictus,NA,NA,NA,90,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval (L1 to pupa),NA,30,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1a,Awang et al. 2019. Effect of temperature on the embryronic development of Aedes albopictus (Diptera: Culicidae). Malaysian Journal of Fundamental and Applied Sciences 15:2,10.11113/mjfas.v15n2.1131,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage completion,5,days,0.57,0.57,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,field (F1 gen.),NA,0,decimal,3.105969797,101.5236483,Aedes albopictus,NA,NA,NA,90,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval (L1 to pupa),NA,33,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1a,Awang et al. 2019. Effect of temperature on the embryronic development of Aedes albopictus (Diptera: Culicidae). Malaysian Journal of Fundamental and Applied Sciences 15:2,10.11113/mjfas.v15n2.1131,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage completion,4.7,days,0.57,0.57,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,field (F1 gen.),NA,0,decimal,3.105969797,101.5236483,Aedes albopictus,NA,NA,NA,90,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval (L1 to pupa),NA,35,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1a,Awang et al. 2019. Effect of temperature on the embryronic development of Aedes albopictus (Diptera: Culicidae). Malaysian Journal of Fundamental and Applied Sciences 15:2,10.11113/mjfas.v15n2.1131,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage completion,8,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Sabah Malaysia,field (F1 gen.),NA,0,decimal,5.957027187,116.0658966,Aedes albopictus,NA,NA,NA,90,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval (L1 to pupa),NA,25,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1a,Awang et al. 2019. Effect of temperature on the embryronic development of Aedes albopictus (Diptera: Culicidae). Malaysian Journal of Fundamental and Applied Sciences 15:2,10.11113/mjfas.v15n2.1131,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage completion,6,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Sabah Malaysia,field (F1 gen.),NA,0,decimal,5.957027187,116.0658966,Aedes albopictus,NA,NA,NA,90,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval (L1 to pupa),NA,27,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1a,Awang et al. 2019. Effect of temperature on the embryronic development of Aedes albopictus (Diptera: Culicidae). Malaysian Journal of Fundamental and Applied Sciences 15:2,10.11113/mjfas.v15n2.1131,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage completion,5,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Sabah Malaysia,field (F1 gen.),NA,0,decimal,5.957027187,116.0658966,Aedes albopictus,NA,NA,NA,90,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval (L1 to pupa),NA,30,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1a,Awang et al. 2019. Effect of temperature on the embryronic development of Aedes albopictus (Diptera: Culicidae). Malaysian Journal of Fundamental and Applied Sciences 15:2,10.11113/mjfas.v15n2.1131,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage completion,4.3,days,0.33,0.33,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Sabah Malaysia,field (F1 gen.),NA,0,decimal,5.957027187,116.0658966,Aedes albopictus,NA,NA,NA,90,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval (L1 to pupa),NA,33,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1a,Awang et al. 2019. Effect of temperature on the embryronic development of Aedes albopictus (Diptera: Culicidae). Malaysian Journal of Fundamental and Applied Sciences 15:2,10.11113/mjfas.v15n2.1131,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage completion,4,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Sabah Malaysia,field (F1 gen.),NA,0,decimal,5.957027187,116.0658966,Aedes albopictus,NA,NA,NA,90,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval (L1 to pupa),NA,35,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1a,Awang et al. 2019. Effect of temperature on the embryronic development of Aedes albopictus (Diptera: Culicidae). Malaysian Journal of Fundamental and Applied Sciences 15:2,10.11113/mjfas.v15n2.1131,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage completion,11.3,days,0.33,0.33,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Melaka Malaysia,field (F1 gen.),NA,0,decimal,2.284767549,102.2868675,Aedes albopictus,NA,NA,NA,90,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,25,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1b,Awang et al. 2019. Effect of temperature on the embryronic development of Aedes albopictus (Diptera: Culicidae). Malaysian Journal of Fundamental and Applied Sciences 15:2,10.11113/mjfas.v15n2.1131,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage completion,8.3,days,0.33,0.33,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Melaka Malaysia,field (F1 gen.),NA,0,decimal,2.284767549,102.2868675,Aedes albopictus,NA,NA,NA,90,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,27,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1b,Awang et al. 2019. Effect of temperature on the embryronic development of Aedes albopictus (Diptera: Culicidae). Malaysian Journal of Fundamental and Applied Sciences 15:2,10.11113/mjfas.v15n2.1131,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage completion,8,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Melaka Malaysia,field (F1 gen.),NA,0,decimal,2.284767549,102.2868675,Aedes albopictus,NA,NA,NA,90,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,30,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1b,Awang et al. 2019. Effect of temperature on the embryronic development of Aedes albopictus (Diptera: Culicidae). Malaysian Journal of Fundamental and Applied Sciences 15:2,10.11113/mjfas.v15n2.1131,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage completion,7.3,days,0.33,0.33,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Melaka Malaysia,field (F1 gen.),NA,0,decimal,2.284767549,102.2868675,Aedes albopictus,NA,NA,NA,90,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,33,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1b,Awang et al. 2019. Effect of temperature on the embryronic development of Aedes albopictus (Diptera: Culicidae). Malaysian Journal of Fundamental and Applied Sciences 15:2,10.11113/mjfas.v15n2.1131,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage completion,6.7,days,0.57,0.57,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Melaka Malaysia,field (F1 gen.),NA,0,decimal,2.284767549,102.2868675,Aedes albopictus,NA,NA,NA,90,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,35,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1b,Awang et al. 2019. Effect of temperature on the embryronic development of Aedes albopictus (Diptera: Culicidae). Malaysian Journal of Fundamental and Applied Sciences 15:2,10.11113/mjfas.v15n2.1131,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage completion,11,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,field (F1 gen.),NA,0,decimal,3.105969797,101.5236483,Aedes albopictus,NA,NA,NA,90,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,25,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1b,Awang et al. 2019. Effect of temperature on the embryronic development of Aedes albopictus (Diptera: Culicidae). Malaysian Journal of Fundamental and Applied Sciences 15:2,10.11113/mjfas.v15n2.1131,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage completion,9,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,field (F1 gen.),NA,0,decimal,3.105969797,101.5236483,Aedes albopictus,NA,NA,NA,90,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,27,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1b,Awang et al. 2019. Effect of temperature on the embryronic development of Aedes albopictus (Diptera: Culicidae). Malaysian Journal of Fundamental and Applied Sciences 15:2,10.11113/mjfas.v15n2.1131,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage completion,8,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,field (F1 gen.),NA,0,decimal,3.105969797,101.5236483,Aedes albopictus,NA,NA,NA,90,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,30,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1b,Awang et al. 2019. Effect of temperature on the embryronic development of Aedes albopictus (Diptera: Culicidae). Malaysian Journal of Fundamental and Applied Sciences 15:2,10.11113/mjfas.v15n2.1131,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage completion,7.7,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,field (F1 gen.),NA,0,decimal,3.105969797,101.5236483,Aedes albopictus,NA,NA,NA,90,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,33,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1b,Awang et al. 2019. Effect of temperature on the embryronic development of Aedes albopictus (Diptera: Culicidae). Malaysian Journal of Fundamental and Applied Sciences 15:2,10.11113/mjfas.v15n2.1131,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage completion,7,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,field (F1 gen.),NA,0,decimal,3.105969797,101.5236483,Aedes albopictus,NA,NA,NA,90,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,35,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1b,Awang et al. 2019. Effect of temperature on the embryronic development of Aedes albopictus (Diptera: Culicidae). Malaysian Journal of Fundamental and Applied Sciences 15:2,10.11113/mjfas.v15n2.1131,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage completion,12,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Sabah Malaysia,field (F1 gen.),NA,0,decimal,5.957027187,116.0658966,Aedes albopictus,NA,NA,NA,90,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,25,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1b,Awang et al. 2019. Effect of temperature on the embryronic development of Aedes albopictus (Diptera: Culicidae). Malaysian Journal of Fundamental and Applied Sciences 15:2,10.11113/mjfas.v15n2.1131,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage completion,9,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Sabah Malaysia,field (F1 gen.),NA,0,decimal,5.957027187,116.0658966,Aedes albopictus,NA,NA,NA,90,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,27,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1b,Awang et al. 2019. Effect of temperature on the embryronic development of Aedes albopictus (Diptera: Culicidae). Malaysian Journal of Fundamental and Applied Sciences 15:2,10.11113/mjfas.v15n2.1131,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage completion,8,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Sabah Malaysia,field (F1 gen.),NA,0,decimal,5.957027187,116.0658966,Aedes albopictus,NA,NA,NA,90,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,30,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1b,Awang et al. 2019. Effect of temperature on the embryronic development of Aedes albopictus (Diptera: Culicidae). Malaysian Journal of Fundamental and Applied Sciences 15:2,10.11113/mjfas.v15n2.1131,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage completion,7.3,days,0.33,0.33,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Sabah Malaysia,field (F1 gen.),NA,0,decimal,5.957027187,116.0658966,Aedes albopictus,NA,NA,NA,90,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,33,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1b,Awang et al. 2019. Effect of temperature on the embryronic development of Aedes albopictus (Diptera: Culicidae). Malaysian Journal of Fundamental and Applied Sciences 15:2,10.11113/mjfas.v15n2.1131,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage completion,7,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Sabah Malaysia,field (F1 gen.),NA,0,decimal,5.957027187,116.0658966,Aedes albopictus,NA,NA,NA,90,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,35,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1b,Awang et al. 2019. Effect of temperature on the embryronic development of Aedes albopictus (Diptera: Culicidae). Malaysian Journal of Fundamental and Applied Sciences 15:2,10.11113/mjfas.v15n2.1131,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2019
NA,NA,incubation period,mean duration of life stage,5.4,days,0.4,0.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Reunion Island,field (F3),NA,0,decimal,-21.06,55.36,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to L1,NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bagny Beilhe et al. 2013. Ecological intercations in Aedes species on Reunion Island. Medical and Vetinary Entomology 27,10.1111/j.1365-2915.2012.01062.x,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2013
NA,NA,incubation period,mean duration of life stage,4,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Reunion Island,field (F3),NA,0,decimal,-21.06,55.36,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to L1,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bagny Beilhe et al. 2013. Ecological intercations in Aedes species on Reunion Island. Medical and Vetinary Entomology 27,10.1111/j.1365-2915.2012.01062.x,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2013
NA,NA,incubation period,mean duration of life stage,3.9,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Reunion Island,field (F3),NA,0,decimal,-21.06,55.36,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to L1,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bagny Beilhe et al. 2013. Ecological intercations in Aedes species on Reunion Island. Medical and Vetinary Entomology 27,10.1111/j.1365-2915.2012.01062.x,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2013
NA,NA,incubation period,mean duration of life stage,4.7,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Reunion Island,field (F3),NA,0,decimal,-21.06,55.36,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to L1,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bagny Beilhe et al. 2013. Ecological intercations in Aedes species on Reunion Island. Medical and Vetinary Entomology 27,10.1111/j.1365-2915.2012.01062.x,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2013
NA,NA,incubation period,mean duration of life stage,4.7,days,0.4,0.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Reunion Island,field (F3),NA,0,decimal,-21.06,55.36,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to L1,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bagny Beilhe et al. 2013. Ecological intercations in Aedes species on Reunion Island. Medical and Vetinary Entomology 27,10.1111/j.1365-2915.2012.01062.x,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2013
NA,NA,development time,mean duration of life stage,29,days,2,2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Reunion Island,field (F3),NA,0,decimal,-21.06,55.36,Aedes aegypti,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bagny Beilhe et al. 2013. Ecological intercations in Aedes species on Reunion Island. Medical and Vetinary Entomology 27,10.1111/j.1365-2915.2012.01062.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from an intitial n=100 at the start of the experiment,TRUE,01/01/2013
NA,NA,development time,mean duration of life stage,12.7,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Reunion Island,field (F3),NA,0,decimal,-21.06,55.36,Aedes aegypti,NA,NA,NA,32,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bagny Beilhe et al. 2013. Ecological intercations in Aedes species on Reunion Island. Medical and Vetinary Entomology 27,10.1111/j.1365-2915.2012.01062.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from an intitial n=100 at the start of the experiment,TRUE,01/01/2013
NA,NA,development time,mean duration of life stage,9.3,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Reunion Island,field (F3),NA,0,decimal,-21.06,55.36,Aedes aegypti,NA,NA,NA,61,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bagny Beilhe et al. 2013. Ecological intercations in Aedes species on Reunion Island. Medical and Vetinary Entomology 27,10.1111/j.1365-2915.2012.01062.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from an intitial n=100 at the start of the experiment,TRUE,01/01/2013
NA,NA,development time,mean duration of life stage,8.2,days,0.4,0.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Reunion Island,field (F3),NA,0,decimal,-21.06,55.36,Aedes aegypti,NA,NA,NA,33,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bagny Beilhe et al. 2013. Ecological intercations in Aedes species on Reunion Island. Medical and Vetinary Entomology 27,10.1111/j.1365-2915.2012.01062.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from an intitial n=100 at the start of the experiment,TRUE,01/01/2013
NA,NA,development time,mean duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Reunion Island,field (F3),NA,0,decimal,-21.06,55.36,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bagny Beilhe et al. 2013. Ecological intercations in Aedes species on Reunion Island. Medical and Vetinary Entomology 27,10.1111/j.1365-2915.2012.01062.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from an intitial n=100 at the start of the experiment,TRUE,01/01/2013
NA,NA,survival,percentage of eggs hatching,77,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Reunion Island,field (F3),NA,0,decimal,-21.06,55.36,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to L1,NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bagny Beilhe et al. 2013. Ecological intercations in Aedes species on Reunion Island. Medical and Vetinary Entomology 27,10.1111/j.1365-2915.2012.01062.x,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2013
NA,NA,survival,percentage of eggs hatching,74,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Reunion Island,field (F3),NA,0,decimal,-21.06,55.36,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to L1,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bagny Beilhe et al. 2013. Ecological intercations in Aedes species on Reunion Island. Medical and Vetinary Entomology 27,10.1111/j.1365-2915.2012.01062.x,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2013
NA,NA,survival,percentage of eggs hatching,72,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Reunion Island,field (F3),NA,0,decimal,-21.06,55.36,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to L1,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bagny Beilhe et al. 2013. Ecological intercations in Aedes species on Reunion Island. Medical and Vetinary Entomology 27,10.1111/j.1365-2915.2012.01062.x,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2013
NA,NA,survival,percentage of eggs hatching,69,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Reunion Island,field (F3),NA,0,decimal,-21.06,55.36,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to L1,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bagny Beilhe et al. 2013. Ecological intercations in Aedes species on Reunion Island. Medical and Vetinary Entomology 27,10.1111/j.1365-2915.2012.01062.x,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2013
NA,NA,survival,percentage of eggs hatching,45,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Reunion Island,field (F3),NA,0,decimal,-21.06,55.36,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to L1,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bagny Beilhe et al. 2013. Ecological intercations in Aedes species on Reunion Island. Medical and Vetinary Entomology 27,10.1111/j.1365-2915.2012.01062.x,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2013
NA,NA,survival,percentage surviving life stage,2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Reunion Island,field (F3),NA,0,decimal,-21.06,55.36,Aedes aegypti,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bagny Beilhe et al. 2013. Ecological intercations in Aedes species on Reunion Island. Medical and Vetinary Entomology 27,10.1111/j.1365-2915.2012.01062.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from an intitial n=100 at the start of the experiment,TRUE,01/01/2013
NA,NA,survival,percentage surviving life stage,32,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Reunion Island,field (F3),NA,0,decimal,-21.06,55.36,Aedes aegypti,NA,NA,NA,32,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bagny Beilhe et al. 2013. Ecological intercations in Aedes species on Reunion Island. Medical and Vetinary Entomology 27,10.1111/j.1365-2915.2012.01062.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from an intitial n=100 at the start of the experiment,TRUE,01/01/2013
NA,NA,survival,percentage surviving life stage,61,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Reunion Island,field (F3),NA,0,decimal,-21.06,55.36,Aedes aegypti,NA,NA,NA,61,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bagny Beilhe et al. 2013. Ecological intercations in Aedes species on Reunion Island. Medical and Vetinary Entomology 27,10.1111/j.1365-2915.2012.01062.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from an intitial n=100 at the start of the experiment,TRUE,01/01/2013
NA,NA,survival,percentage surviving life stage,33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Reunion Island,field (F3),NA,0,decimal,-21.06,55.36,Aedes aegypti,NA,NA,NA,33,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bagny Beilhe et al. 2013. Ecological intercations in Aedes species on Reunion Island. Medical and Vetinary Entomology 27,10.1111/j.1365-2915.2012.01062.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from an intitial n=100 at the start of the experiment,TRUE,01/01/2013
NA,NA,survival,percentage surviving life stage,1,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Reunion Island,field (F3),NA,0,decimal,-21.06,55.36,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bagny Beilhe et al. 2013. Ecological intercations in Aedes species on Reunion Island. Medical and Vetinary Entomology 27,10.1111/j.1365-2915.2012.01062.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from an intitial n=100 at the start of the experiment,TRUE,01/01/2013
NA,NA,pre-bloodmeal period,mean duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Reunion Island,field (F3),NA,0,decimal,-21.06,55.36,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to L1,NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bagny Beilhe et al. 2013. Ecological intercations in Aedes species on Reunion Island. Medical and Vetinary Entomology 27,10.1111/j.1365-2915.2012.01062.x,NA,NA,Paul Huxley,phuxly@gmail.com,originaltraitvalue set to zero because bloodfeeding did not occur at this temperature,TRUE,01/01/2013
NA,NA,pre-bloodmeal period,mean duration of life stage,6.4,days,2.8,2.8,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Reunion Island,field (F3),NA,0,decimal,-21.06,55.36,Aedes aegypti,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to L1,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bagny Beilhe et al. 2013. Ecological intercations in Aedes species on Reunion Island. Medical and Vetinary Entomology 27,10.1111/j.1365-2915.2012.01062.x,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2013
NA,NA,pre-bloodmeal period,mean duration of life stage,5.1,days,1.2,1.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Reunion Island,field (F3),NA,0,decimal,-21.06,55.36,Aedes aegypti,NA,NA,NA,23,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to L1,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bagny Beilhe et al. 2013. Ecological intercations in Aedes species on Reunion Island. Medical and Vetinary Entomology 27,10.1111/j.1365-2915.2012.01062.x,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2013
NA,NA,pre-bloodmeal period,mean duration of life stage,5.1,days,1.2,1.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Reunion Island,field (F3),NA,0,decimal,-21.06,55.36,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to L1,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bagny Beilhe et al. 2013. Ecological intercations in Aedes species on Reunion Island. Medical and Vetinary Entomology 27,10.1111/j.1365-2915.2012.01062.x,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2013
NA,NA,pre-bloodmeal period,mean duration of life stage,3,days,0.8,0.8,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Reunion Island,field (F3),NA,0,decimal,-21.06,55.36,Aedes aegypti,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to L1,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bagny Beilhe et al. 2013. Ecological intercations in Aedes species on Reunion Island. Medical and Vetinary Entomology 27,10.1111/j.1365-2915.2012.01062.x,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2013
NA,NA,feeding rate,mean lifetime number of bloodmeals per female,0,blood meals individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Reunion Island,field (F3),NA,0,decimal,-21.06,55.36,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bagny Beilhe et al. 2013. Ecological intercations in Aedes species on Reunion Island. Medical and Vetinary Entomology 27,10.1111/j.1365-2915.2012.01062.x,NA,NA,Paul Huxley,phuxly@gmail.com,originaltraitvalue set to zero because bloodfeeding did not occur at this temperature,TRUE,01/01/2013
NA,NA,feeding rate,mean lifetime number of bloodmeals per female,1.8,blood meals individual-1,0.3,0.3,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Reunion Island,field (F3),NA,0,decimal,-21.06,55.36,Aedes aegypti,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bagny Beilhe et al. 2013. Ecological intercations in Aedes species on Reunion Island. Medical and Vetinary Entomology 27,10.1111/j.1365-2915.2012.01062.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from an intitial n=100 at the start of the experiment,TRUE,01/01/2013
NA,NA,feeding rate,mean lifetime number of bloodmeals per female,2,blood meals individual-1,0.3,0.3,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Reunion Island,field (F3),NA,0,decimal,-21.06,55.36,Aedes aegypti,NA,NA,NA,23,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bagny Beilhe et al. 2013. Ecological intercations in Aedes species on Reunion Island. Medical and Vetinary Entomology 27,10.1111/j.1365-2915.2012.01062.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from an intitial n=100 at the start of the experiment,TRUE,01/01/2013
NA,NA,feeding rate,mean lifetime number of bloodmeals per female,2.1,blood meals individual-1,0.3,0.3,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Reunion Island,field (F3),NA,0,decimal,-21.06,55.36,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bagny Beilhe et al. 2013. Ecological intercations in Aedes species on Reunion Island. Medical and Vetinary Entomology 27,10.1111/j.1365-2915.2012.01062.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from an intitial n=100 at the start of the experiment,TRUE,01/01/2013
NA,NA,feeding rate,mean lifetime number of bloodmeals per female,1.4,blood meals individual-1,0.2,0.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Reunion Island,field (F3),NA,0,decimal,-21.06,55.36,Aedes aegypti,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bagny Beilhe et al. 2013. Ecological intercations in Aedes species on Reunion Island. Medical and Vetinary Entomology 27,10.1111/j.1365-2915.2012.01062.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from an intitial n=100 at the start of the experiment,TRUE,01/01/2013
NA,BZ001,mortality,duration required to cause 50% (T50) population-level mortality,18.3,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,0.5,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals at the beginning of the experiment,TRUE,01/01/1957
NA,BZ001,mortality,duration required to cause 50% (T50) population-level mortality,23.7,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,4,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals at the beginning of the experiment,TRUE,01/01/1957
NA,BZ001,mortality,duration required to cause 50% (T50) population-level mortality,90.2,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,8,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals at the beginning of the experiment,TRUE,01/01/1957
NA,BZ001,mortality,duration required to cause 50% (T50) population-level mortality,153.6,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,41,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals at the beginning of the experiment,TRUE,01/01/1957
NA,BZ001,mortality,duration required to cause 50% (T50) population-level mortality,68.8,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals at the beginning of the experiment,TRUE,01/01/1957
NA,BZ001,mortality,duration required to cause 50% (T50) population-level mortality,9.9,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,45,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals at the beginning of the experiment,TRUE,01/01/1957
NA,BZ001,mortality,duration required to cause 50% (T50) population-level mortality,15.4,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,0.5,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals at the beginning of the experiment,TRUE,01/01/1957
NA,BZ001,mortality,duration required to cause 50% (T50) population-level mortality,21.6,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,4,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals at the beginning of the experiment,TRUE,01/01/1957
NA,BZ001,mortality,duration required to cause 50% (T50) population-level mortality,75.8,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,8,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals at the beginning of the experiment,TRUE,01/01/1957
NA,BZ001,mortality,duration required to cause 50% (T50) population-level mortality,163.8,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,41,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals at the beginning of the experiment,TRUE,01/01/1957
NA,BZ001,mortality,duration required to cause 50% (T50) population-level mortality,68.8,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals at the beginning of the experiment,TRUE,01/01/1957
NA,BZ001,mortality,duration required to cause 50% (T50) population-level mortality,9.6,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,45,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals at the beginning of the experiment,TRUE,01/01/1957
NA,BZ001,mortality,duration required to cause 50% (T50) population-level mortality,17.7,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,0.5,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals at the beginning of the experiment,TRUE,01/01/1957
NA,BZ001,mortality,duration required to cause 50% (T50) population-level mortality,22.1,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,4,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals at the beginning of the experiment,TRUE,01/01/1957
NA,BZ001,mortality,duration required to cause 50% (T50) population-level mortality,81.3,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,8,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals at the beginning of the experiment,TRUE,01/01/1957
NA,BZ001,mortality,duration required to cause 50% (T50) population-level mortality,236.4,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,41,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals at the beginning of the experiment,TRUE,01/01/1957
NA,BZ001,mortality,duration required to cause 50% (T50) population-level mortality,66,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals at the beginning of the experiment,TRUE,01/01/1957
NA,BZ001,mortality,duration required to cause 50% (T50) population-level mortality,10.5,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,45,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals at the beginning of the experiment,TRUE,01/01/1957
NA,BZ001,mortality,duration required to cause 50% (T50) population-level mortality,14.9,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,0.5,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals at the beginning of the experiment,TRUE,01/01/1957
NA,BZ001,mortality,duration required to cause 50% (T50) population-level mortality,24,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,4,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals at the beginning of the experiment,TRUE,01/01/1957
NA,BZ001,mortality,duration required to cause 50% (T50) population-level mortality,85.3,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,8,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals at the beginning of the experiment,TRUE,01/01/1957
NA,BZ001,mortality,duration required to cause 50% (T50) population-level mortality,207.6,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,41,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals at the beginning of the experiment,TRUE,01/01/1957
NA,BZ001,mortality,duration required to cause 50% (T50) population-level mortality,55.9,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals at the beginning of the experiment,TRUE,01/01/1957
NA,BZ001,mortality,duration required to cause 50% (T50) population-level mortality,8.8,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,45,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals at the beginning of the experiment,TRUE,01/01/1957
NA,BZ001,mortality,duration required to cause 50% (T50) population-level mortality,31,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal (young),NA,0.5,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals at the beginning of the experiment. young pupae (30-min-old individual) old pupae (36 hrs-old individual),TRUE,01/01/1957
NA,BZ001,mortality,duration required to cause 50% (T50) population-level mortality,60.3,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal (young),NA,4,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals at the beginning of the experiment. young pupae (30-min-old individual) old pupae (36 hrs-old individual),TRUE,01/01/1957
NA,BZ001,mortality,duration required to cause 50% (T50) population-level mortality,217.5,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal (young),NA,8,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals at the beginning of the experiment. young pupae (30-min-old individual) old pupae (36 hrs-old individual),TRUE,01/01/1957
NA,BZ002,mortality,duration required to cause 50% (T50) population-level mortality,376.5,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal (young),NA,41,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals at the beginning of the experiment. young pupae (30-min-old individual) old pupae (36 hrs-old individual),TRUE,01/01/1957
NA,BZ002,mortality,duration required to cause 50% (T50) population-level mortality,64.7,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal (young),NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals at the beginning of the experiment. young pupae (30-min-old individual) old pupae (36 hrs-old individual),TRUE,01/01/1957
NA,BZ002,mortality,duration required to cause 50% (T50) population-level mortality,12.3,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal (young),NA,45,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals at the beginning of the experiment. young pupae (30-min-old individual) old pupae (36 hrs-old individual),TRUE,01/01/1957
NA,BZ001,mortality,duration required to cause 50% (T50) population-level mortality,12.1,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal (old),NA,0.5,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals at the beginning of the experiment. young pupae (30-min-old individual) old pupae (36 hrs-old individual),TRUE,01/01/1957
NA,BZ001,mortality,duration required to cause 50% (T50) population-level mortality,27.4,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal (old),NA,4,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals at the beginning of the experiment. young pupae (30-min-old individual) old pupae (36 hrs-old individual),TRUE,01/01/1957
NA,BZ001,mortality,duration required to cause 50% (T50) population-level mortality,74.8,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal (old),NA,8,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals at the beginning of the experiment. young pupae (30-min-old individual) old pupae (36 hrs-old individual),TRUE,01/01/1957
NA,BZ002,mortality,duration required to cause 50% (T50) population-level mortality,264.4,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal (old),NA,41,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals at the beginning of the experiment. young pupae (30-min-old individual) old pupae (36 hrs-old individual),TRUE,01/01/1957
NA,BZ002,mortality,duration required to cause 50% (T50) population-level mortality,39.9,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal (old),NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals at the beginning of the experiment. young pupae (30-min-old individual) old pupae (36 hrs-old individual),TRUE,01/01/1957
NA,BZ002,mortality,duration required to cause 50% (T50) population-level mortality,8.1,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal (old),NA,45,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals at the beginning of the experiment. young pupae (30-min-old individual) old pupae (36 hrs-old individual),TRUE,01/01/1957
NA,BZ003,mortality,duration required to cause 50% (T50) population-level mortality,9.9,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,0,percent,NA,NA,48,hours,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,0.5,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,adults were 4-days old when exposed to experimental temperature,TRUE,01/01/1957
NA,BZ003,mortality,duration required to cause 50% (T50) population-level mortality,20.2,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,0,percent,NA,NA,48,hours,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,4,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,adults were 4-days old when exposed to experimental temperature,TRUE,01/01/1957
NA,BZ003,mortality,duration required to cause 50% (T50) population-level mortality,13,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,0,percent,NA,NA,48,hours,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,8,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,adults were 4-days old when exposed to experimental temperature,TRUE,01/01/1957
NA,BZ003,mortality,duration required to cause 50% (T50) population-level mortality,4.9,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,0,percent,NA,NA,48,hours,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,12,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,adults were 4-days old when exposed to experimental temperature,TRUE,01/01/1957
NA,BZ003,mortality,duration required to cause 50% (T50) population-level mortality,15.4,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,0,percent,NA,NA,240,hours,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,adults were 4-days old when exposed to experimental temperature,TRUE,01/01/1957
NA,BZ003,mortality,duration required to cause 50% (T50) population-level mortality,4.3,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,0,percent,NA,NA,78,hours,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,adults were 4-days old when exposed to experimental temperature,TRUE,01/01/1957
NA,BZ003,mortality,duration required to cause 50% (T50) population-level mortality,0.6,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,0,percent,NA,NA,78,hours,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,40,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,adults were 4-days old when exposed to experimental temperature,TRUE,01/01/1957
NA,BZ003,mortality,duration required to cause 50% (T50) population-level mortality,10.2,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,45,percent,NA,NA,48,hours,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,0.5,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,adults were 4-days old when exposed to experimental temperature,TRUE,01/01/1957
NA,BZ003,mortality,duration required to cause 50% (T50) population-level mortality,21,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,45,percent,NA,NA,48,hours,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,4,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,adults were 4-days old when exposed to experimental temperature,TRUE,01/01/1957
NA,BZ003,mortality,duration required to cause 50% (T50) population-level mortality,23,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,45,percent,NA,NA,48,hours,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,8,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,adults were 4-days old when exposed to experimental temperature,TRUE,01/01/1957
NA,BZ003,mortality,duration required to cause 50% (T50) population-level mortality,6.5,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,45,percent,NA,NA,48,hours,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,12,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,adults were 4-days old when exposed to experimental temperature,TRUE,01/01/1957
NA,BZ003,mortality,duration required to cause 50% (T50) population-level mortality,31.9,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,45,percent,NA,NA,240,hours,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,adults were 4-days old when exposed to experimental temperature,TRUE,01/01/1957
NA,BZ003,mortality,duration required to cause 50% (T50) population-level mortality,12.9,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,45,percent,NA,NA,78,hours,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,adults were 4-days old when exposed to experimental temperature,TRUE,01/01/1957
NA,BZ003,mortality,duration required to cause 50% (T50) population-level mortality,0.7,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,45,percent,NA,NA,78,hours,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,40,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,adults were 4-days old when exposed to experimental temperature,TRUE,01/01/1957
NA,BZ003,mortality,duration required to cause 50% (T50) population-level mortality,8.2,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,85,percent,NA,NA,48,hours,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,0.5,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,adults were 4-days old when exposed to experimental temperature,TRUE,01/01/1957
NA,BZ003,mortality,duration required to cause 50% (T50) population-level mortality,33,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,85,percent,NA,NA,48,hours,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,4,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,adults were 4-days old when exposed to experimental temperature,TRUE,01/01/1957
NA,BZ003,mortality,duration required to cause 50% (T50) population-level mortality,26.4,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,85,percent,NA,NA,48,hours,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,8,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,adults were 4-days old when exposed to experimental temperature,TRUE,01/01/1957
NA,BZ003,mortality,duration required to cause 50% (T50) population-level mortality,14,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,85,percent,NA,NA,48,hours,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,12,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,adults were 4-days old when exposed to experimental temperature,TRUE,01/01/1957
NA,BZ003,mortality,duration required to cause 50% (T50) population-level mortality,32.3,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,85,percent,NA,NA,240,hours,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,adults were 4-days old when exposed to experimental temperature,TRUE,01/01/1957
NA,BZ003,mortality,duration required to cause 50% (T50) population-level mortality,18.8,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,85,percent,NA,NA,78,hours,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,adults were 4-days old when exposed to experimental temperature,TRUE,01/01/1957
NA,BZ003,mortality,duration required to cause 50% (T50) population-level mortality,0.7,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,85,percent,NA,NA,78,hours,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,40,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,adults were 4-days old when exposed to experimental temperature,TRUE,01/01/1957
NA,BZ003,mortality,duration required to cause 50% (T50) population-level mortality,9.7,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,100,percent,NA,NA,48,hours,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,0.5,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,adults were 4-days old when exposed to experimental temperature,TRUE,01/01/1957
NA,BZ003,mortality,duration required to cause 50% (T50) population-level mortality,48.7,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,100,percent,NA,NA,48,hours,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,4,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,adults were 4-days old when exposed to experimental temperature,TRUE,01/01/1957
NA,BZ003,mortality,duration required to cause 50% (T50) population-level mortality,32,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,100,percent,NA,NA,48,hours,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,8,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,adults were 4-days old when exposed to experimental temperature,TRUE,01/01/1957
NA,BZ003,mortality,duration required to cause 50% (T50) population-level mortality,25,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,100,percent,NA,NA,48,hours,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,12,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,adults were 4-days old when exposed to experimental temperature,TRUE,01/01/1957
NA,BZ003,mortality,duration required to cause 50% (T50) population-level mortality,104.7,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,100,percent,NA,NA,240,hours,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,adults were 4-days old when exposed to experimental temperature,TRUE,01/01/1957
NA,BZ003,mortality,duration required to cause 50% (T50) population-level mortality,48.3,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,100,percent,NA,NA,78,hours,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,adults were 4-days old when exposed to experimental temperature,TRUE,01/01/1957
NA,BZ003,mortality,duration required to cause 50% (T50) population-level mortality,0.6,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,100,percent,NA,NA,78,hours,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,40,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,adults were 4-days old when exposed to experimental temperature,TRUE,01/01/1957
NA,BZ004,mortality,duration required to cause 50% (T50) population-level mortality,624.6,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,960,minutes,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,1000,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,41,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1957
NA,BZ004,mortality,duration required to cause 50% (T50) population-level mortality,117,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,960,minutes,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,1000,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1957
NA,BZ004,mortality,duration required to cause 50% (T50) population-level mortality,27.6,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,960,minutes,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,1000,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,45,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1957
NA,BZ004,mortality,duration required to cause 50% (T50) population-level mortality,190.3,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,41,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,The values for larvae are the means of the values for the four stages given in Table II,TRUE,01/01/1957
NA,BZ004,mortality,duration required to cause 50% (T50) population-level mortality,64.9,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,The values for larvae are the means of the values for the four stages given in Table II,TRUE,01/01/1957
NA,BZ004,mortality,duration required to cause 50% (T50) population-level mortality,9.7,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,45,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,The values for larvae are the means of the values for the four stages given in Table II,TRUE,01/01/1957
NA,BZ004,mortality,duration required to cause 50% (T50) population-level mortality,376.5,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal (young),NA,41,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,young pupae (30-min-old) old pupae (36 hrs-old),TRUE,01/01/1957
NA,BZ004,mortality,duration required to cause 50% (T50) population-level mortality,64.7,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal (young),NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,young pupae (30-min-old) old pupae (36 hrs-old),TRUE,01/01/1957
NA,BZ004,mortality,duration required to cause 50% (T50) population-level mortality,12.3,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal (young),NA,45,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,young pupae (30-min-old) old pupae (36 hrs-old),TRUE,01/01/1957
NA,BZ004,mortality,duration required to cause 50% (T50) population-level mortality,264.4,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal (old),NA,41,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,young pupae (30-min-old) old pupae (36 hrs-old),TRUE,01/01/1957
NA,BZ004,mortality,duration required to cause 50% (T50) population-level mortality,39.5,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal (old),NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,young pupae (30-min-old) old pupae (36 hrs-old),TRUE,01/01/1957
NA,BZ004,mortality,duration required to cause 50% (T50) population-level mortality,8.1,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal (old),NA,45,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,young pupae (30-min-old) old pupae (36 hrs-old),TRUE,01/01/1957
NA,BZ004,mortality,duration required to cause 50% (T50) population-level mortality,32.8,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,100,percent,NA,NA,60,minutes,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,adults were 4-days old when exposed to experimental temperature,TRUE,01/01/1957
NA,BZ004,mortality,duration required to cause 50% (T50) population-level mortality,16.9,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,100,percent,NA,NA,60,minutes,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,adults were 4-days old when exposed to experimental temperature,TRUE,01/01/1957
NA,BZ004,mortality,duration required to cause 50% (T50) population-level mortality,6.8,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,100,percent,NA,NA,60,minutes,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,45,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,adults were 4-days old when exposed to experimental temperature,TRUE,01/01/1957
NA,BZ005,mortality,duration required to cause 50% (T50) population-level mortality,394,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,32,days,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,1000,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,0.5,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1957
NA,BZ005,mortality,duration required to cause 50% (T50) population-level mortality,446,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,32,days,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,1000,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,4,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1957
NA,BZ005,mortality,duration required to cause 50% (T50) population-level mortality,523,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,32,days,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,1000,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,8,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1957
NA,BZ005,mortality,duration required to cause 50% (T50) population-level mortality,16.6,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,0.5,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1957
NA,BZ005,mortality,duration required to cause 50% (T50) population-level mortality,22.8,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,4,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1957
NA,BZ005,mortality,duration required to cause 50% (T50) population-level mortality,83.1,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,8,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1957
NA,BZ005,mortality,duration required to cause 50% (T50) population-level mortality,31,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal (young),NA,0.5,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,young pupae (30-min-old) old pupae (36 hrs-old),TRUE,01/01/1957
NA,BZ005,mortality,duration required to cause 50% (T50) population-level mortality,60.3,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal (young),NA,4,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,young pupae (30-min-old) old pupae (36 hrs-old),TRUE,01/01/1957
NA,BZ005,mortality,duration required to cause 50% (T50) population-level mortality,217.5,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal (young),NA,8,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,young pupae (30-min-old) old pupae (36 hrs-old),TRUE,01/01/1957
NA,BZ005,mortality,duration required to cause 50% (T50) population-level mortality,12.1,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal (old),NA,0.5,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,young pupae (30-min-old) old pupae (36 hrs-old),TRUE,01/01/1957
NA,BZ005,mortality,duration required to cause 50% (T50) population-level mortality,27.4,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal (old),NA,4,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,young pupae (30-min-old) old pupae (36 hrs-old),TRUE,01/01/1957
NA,BZ005,mortality,duration required to cause 50% (T50) population-level mortality,74.8,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal (old),NA,8,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,young pupae (30-min-old) old pupae (36 hrs-old),TRUE,01/01/1957
NA,BZ005,mortality,duration required to cause 50% (T50) population-level mortality,9.7,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,100,percent,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,0.5,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,adults were 4-days old when exposed to experimental temperature,TRUE,01/01/1957
NA,BZ005,mortality,duration required to cause 50% (T50) population-level mortality,48.7,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,100,percent,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,4,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,adults were 4-days old when exposed to experimental temperature,TRUE,01/01/1957
NA,BZ005,mortality,duration required to cause 50% (T50) population-level mortality,32,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,100,percent,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,8,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,adults were 4-days old when exposed to experimental temperature,TRUE,01/01/1957
NA,BZ005,mortality,duration required to cause 50% (T50) population-level mortality,25,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,100,percent,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.933333,34.8,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,12,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Bar-Zeev 1957. The effect of extreme temperatures on different stages of Aedes aegypti (L). Bulletin of Entomological Research 48:3,10.1017/S0007485300002765,NA,NA,Daniele Da Re,dare.daniele@gmail.com,adults were 4-days old when exposed to experimental temperature,TRUE,01/01/1957
NA,NA,development time,mean duration of life stage,819,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,206,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived to adulthood from the initial number of individuals at the start of the experiment (n=102),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,423,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived to adulthood from the initial number of individuals at the start of the experiment (n=102),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,273,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,42,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived to adulthood from the initial number of individuals at the start of the experiment (n=98),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,195,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived to adulthood from the initial number of individuals at the start of the experiment (n=100),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,165,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived to adulthood from the initial number of individuals at the start of the experiment (n=100),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,153,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,80,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived to adulthood from the initial number of individuals at the start of the experiment (n=104),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,165,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,90,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived to adulthood from the initial number of individuals at the start of the experiment(n=100),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,171,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,76,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived to adulthood from the initial number of individuals at the start of the experiment (n=99),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,0,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,38,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived to adulthood from the initial number of individuals at the start of the experiment (n=100),TRUE,01/01/1958
NA,NA,survival,proportion completing life stage,0.72,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,73,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=102) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,proportion completing life stage,0.89,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,91,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=102) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,proportion completing life stage,0.76,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,74,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=98) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,proportion completing life stage,0.97,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,97,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=100) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,proportion completing life stage,0.88,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,88,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=100) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,proportion completing life stage,0.77,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,80,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=104) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,proportion completing life stage,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,90,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=100) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,proportion completing life stage,0.77,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,76,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=99) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,proportion completing life stage,0,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,38,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=100) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,111,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,102,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=102),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,63,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,102,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=102),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,33,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,94,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=98),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,27,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=100),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,27,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived to adulthood from the initial number of individuals at the start of the experiment (n=100),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,27,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,104,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=104),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,27,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment(n=100),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,21,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,99,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=99),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,27,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,38,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value set to zero because mortality was complete at this temperature,TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,162,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,73,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived to adulthood from the initial number of individuals at the start of the experiment (n=102),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,72,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,91,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived to adulthood from the initial number of individuals at the start of the experiment (n=102),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,60,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,74,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived to adulthood from the initial number of individuals at the start of the experiment (n=98),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,42,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,97,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived to adulthood from the initial number of individuals at the start of the experiment (n=100),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,36,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,88,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived to adulthood from the initial number of individuals at the start of the experiment (n=100),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,30,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,80,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived to adulthood from the initial number of individuals at the start of the experiment (n=104),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,36,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,90,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived to adulthood from the initial number of individuals at the start of the experiment(n=100),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,36,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,76,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived to adulthood from the initial number of individuals at the start of the experiment (n=99),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,0,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,38,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived to adulthood from the initial number of individuals at the start of the experiment (n=100),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,132,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,97,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=102),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,114,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=102),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,54,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,91,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=98),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,30,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=100),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,24,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,95,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=100),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,24,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,103,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=104),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,24,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,99,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment(n=100),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,30,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,99,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=99),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,0,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,38,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=100),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,306,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,79,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=102),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,120,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,94,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=102),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,78,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,88,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=98),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,72,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,99,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=100),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,54,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,89,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=100),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,48,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,102,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=104),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,54,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,95,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment(n=100),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,66,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,88,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=99),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,0,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,38,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=100),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,108,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=102),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,54,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,102,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=102),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,48,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,93,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=98),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,24,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=100),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,24,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=100),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,24,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,103,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=104),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,24,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment(n=100),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,18,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,99,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=99),TRUE,01/01/1958
NA,NA,development time,mean duration of life stage,0,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,38,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=100),TRUE,01/01/1958
NA,NA,survival,cumulative proportion completing life stage,0.72,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,73,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=102) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,cumulative proportion completing life stage,0.89,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,91,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=102) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,cumulative proportion completing life stage,0.76,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,74,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=98) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,cumulative proportion completing life stage,0.97,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,97,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=100) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,cumulative proportion completing life stage,0.88,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,88,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=100) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,cumulative proportion completing life stage,0.77,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,80,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=104) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,cumulative proportion completing life stage,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,90,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=100) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,cumulative proportion completing life stage,0.77,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,76,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=99) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,cumulative proportion completing life stage,0,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,38,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=100) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,cumulative proportion completing life stage,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,102,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=102) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,cumulative proportion completing life stage,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,102,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=102) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,cumulative proportion completing life stage,0.96,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,94,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=98) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,cumulative proportion completing life stage,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=100) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,cumulative proportion completing life stage,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=100) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,cumulative proportion completing life stage,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,104,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=104) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,cumulative proportion completing life stage,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=100) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,cumulative proportion completing life stage,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,99,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=99) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,cumulative proportion completing life stage,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,38,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=100) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,cumulative proportion completing life stage,0.98,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=102) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,cumulative proportion completing life stage,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,102,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=102) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,cumulative proportion completing life stage,0.95,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,93,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=98) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,cumulative proportion completing life stage,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=100) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,cumulative proportion completing life stage,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=100) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,cumulative proportion completing life stage,0.99,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,103,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=104) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,cumulative proportion completing life stage,0.99,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=100) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,cumulative proportion completing life stage,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,99,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=99) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,cumulative proportion completing life stage,0,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,38,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=100) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,cumulative proportion completing life stage,0.95,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,97,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=102) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,cumulative proportion completing life stage,0.98,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=102) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,cumulative proportion completing life stage,0.93,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,91,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=98) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,cumulative proportion completing life stage,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=100) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,cumulative proportion completing life stage,0.95,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,95,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=100) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,cumulative proportion completing life stage,0.99,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,103,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=104) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,cumulative proportion completing life stage,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,99,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=100) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,cumulative proportion completing life stage,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,99,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=99) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,cumulative proportion completing life stage,0,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,38,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=100) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,cumulative proportion completing life stage,0.77,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,79,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=102) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,cumulative proportion completing life stage,0.89,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,94,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=102) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,cumulative proportion completing life stage,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,88,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=98) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,cumulative proportion completing life stage,0.99,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,99,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=100) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,cumulative proportion completing life stage,0.89,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,89,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=100) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,cumulative proportion completing life stage,0.98,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,102,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=104) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,cumulative proportion completing life stage,0.95,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,95,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=100) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,cumulative proportion completing life stage,0.89,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,88,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=99) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,NA,survival,cumulative proportion completing life stage,0,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ness Ziona Israel,colony,NA,0,decimal,31.93222738,34.79944404,Aedes aegypti,Yellow fever mosquito,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,38,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Bar-Zeev. 1958. The effect of temperature on the growth rate and survival of the immature stages of Aedes aegypti (L.). Bulletin of Entomological Research 49,10.1017/S0007485300053499,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is product of the initial number (n=100) divided by the number of survivors (n=interactor1number),TRUE,01/01/1958
NA,MSS0001,development time,mean duration of life stage,37.1,days,1.3,1.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,juvenile (L1 to adult),NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0001,development time,mean duration of life stage,26.5,days,1.2,1.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,juvenile (L1 to adult),NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0001,development time,mean duration of life stage,20.2,days,1,1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,juvenile (L1 to adult),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0001,development time,mean duration of life stage,13.3,days,0.9,0.9,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,juvenile (L1 to adult),NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0001,development time,mean duration of life stage,12.1,days,0.9,0.9,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,juvenile (L1 to adult),NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0001,development time,mean duration of life stage,4.1,days,0.5,0.5,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,L1,NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0001,development time,mean duration of life stage,3.1,days,0.8,0.8,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,L1,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0001,development time,mean duration of life stage,2.4,days,0.9,0.9,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,L1,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0001,development time,mean duration of life stage,1.8,days,0.6,0.6,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,L1,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0001,development time,mean duration of life stage,1.5,days,0.6,0.6,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,L1,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0001,development time,mean duration of life stage,6.5,days,1,1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,L2,NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0001,development time,mean duration of life stage,4.2,days,1.1,1.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,L2,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0001,development time,mean duration of life stage,3.3,days,1,1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,L2,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0001,development time,mean duration of life stage,2.3,days,0.7,0.7,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,L2,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0001,development time,mean duration of life stage,2.3,days,0.7,0.7,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,L2,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0001,development time,mean duration of life stage,8.1,days,1.2,1.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,L3,NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0001,development time,mean duration of life stage,5.3,days,1.2,1.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,L3,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0001,development time,mean duration of life stage,4,days,1,1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,L3,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0001,development time,mean duration of life stage,2.6,days,0.8,0.8,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,L3,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0001,development time,mean duration of life stage,2.5,days,0.7,0.7,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,L3,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0001,development time,mean duration of life stage,11.3,days,1.2,1.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,L4,NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0001,development time,mean duration of life stage,7.5,days,1.3,1.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,L4,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0001,development time,mean duration of life stage,5.4,days,1.1,1.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,L4,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0001,development time,mean duration of life stage,3.5,days,1,1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,L4,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0001,development time,mean duration of life stage,2.8,days,1,1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,L4,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0001,development time,mean duration of life stage,7.1,days,0.9,0.9,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,pupal,NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0001,development time,mean duration of life stage,6.4,days,1.2,1.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,pupal,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0001,development time,mean duration of life stage,5.1,days,1,1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,pupal,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0001,development time,mean duration of life stage,3.1,days,0.9,0.9,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,pupal,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0001,development time,mean duration of life stage,3,days,0.8,0.8,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,pupal,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0002,survival,percentage surviving life stage,68.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,21,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,juvenile (L1 to adult emergence),NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus. interactor1number is the number that survived from n=30 at the start of the experiment,TRUE,01/01/2005
NA,MSS0002,survival,percentage surviving life stage,84.4,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,juvenile (L1 to adult emergence),NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus. interactor1number is the number that survived from n=30 at the start of the experiment,TRUE,01/01/2005
NA,MSS0002,survival,percentage surviving life stage,76.1,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,23,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,juvenile (L1 to adult emergence),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus. interactor1number is the number that survived from n=30 at the start of the experiment,TRUE,01/01/2005
NA,MSS0002,survival,percentage surviving life stage,52.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,juvenile (L1 to adult emergence),NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus. interactor1number is the number that survived from n=30 at the start of the experiment,TRUE,01/01/2005
NA,MSS0002,survival,percentage surviving life stage,35.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,juvenile (L1 to adult emergence),NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus. interactor1number is the number that survived from n=30 at the start of the experiment,TRUE,01/01/2005
NA,MSS0001,development time,mean duration of life stage,2.5,days,0.8,0.8,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,salinity,sea water (36 ppK) 50% diluted sea water (18 ppK) or distilled water (0 ppK),0,ppK,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,L1,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0001,development time,mean duration of life stage,2.4,days,0.8,0.8,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,salinity,sea water (36 ppK) 50% diluted sea water (18 ppK) or distilled water (0 ppK),18,ppK,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,L1,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0001,development time,mean duration of life stage,2.5,days,0.8,0.8,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,salinity,sea water (36 ppK) 50% diluted sea water (18 ppK) or distilled water (0 ppK),36,ppK,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,L1,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0001,development time,mean duration of life stage,3.2,days,1,1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,salinity,sea water (36 ppK) 50% diluted sea water (18 ppK) or distilled water (0 ppK),0,ppK,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,L2,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0001,development time,mean duration of life stage,3.2,days,0.9,0.9,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,salinity,sea water (36 ppK) 50% diluted sea water (18 ppK) or distilled water (0 ppK),18,ppK,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,L2,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0001,development time,mean duration of life stage,3.2,days,1,1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,salinity,sea water (36 ppK) 50% diluted sea water (18 ppK) or distilled water (0 ppK),36,ppK,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,L2,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0001,development time,mean duration of life stage,4.1,days,1,1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,salinity,sea water (36 ppK) 50% diluted sea water (18 ppK) or distilled water (0 ppK),0,ppK,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,L3,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0001,development time,mean duration of life stage,4.2,days,1,1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,salinity,sea water (36 ppK) 50% diluted sea water (18 ppK) or distilled water (0 ppK),18,ppK,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,L3,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0001,development time,mean duration of life stage,4.1,days,1,1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,salinity,sea water (36 ppK) 50% diluted sea water (18 ppK) or distilled water (0 ppK),36,ppK,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,L3,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0001,development time,mean duration of life stage,5.2,days,0.9,0.9,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,salinity,sea water (36 ppK) 50% diluted sea water (18 ppK) or distilled water (0 ppK),0,ppK,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,L4,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0001,development time,mean duration of life stage,5.2,days,1,1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,salinity,sea water (36 ppK) 50% diluted sea water (18 ppK) or distilled water (0 ppK),18,ppK,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,L4,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0001,development time,mean duration of life stage,5.2,days,1,1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,salinity,sea water (36 ppK) 50% diluted sea water (18 ppK) or distilled water (0 ppK),36,ppK,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,L4,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0001,development time,mean duration of life stage,4,days,1.1,1.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,salinity,sea water (36 ppK) 50% diluted sea water (18 ppK) or distilled water (0 ppK),0,ppK,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,pupal,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0001,development time,mean duration of life stage,5,days,1,1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,salinity,sea water (36 ppK) 50% diluted sea water (18 ppK) or distilled water (0 ppK),18,ppK,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,pupal,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0001,development time,mean duration of life stage,4.5,days,1,1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,salinity,sea water (36 ppK) 50% diluted sea water (18 ppK) or distilled water (0 ppK),36,ppK,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,pupal,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0001,development time,mean duration of life stage,18.9,days,1.1,1.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,salinity,sea water (36 ppK) 50% diluted sea water (18 ppK) or distilled water (0 ppK),0,ppK,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,juvenile (L1 to adult),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0001,development time,mean duration of life stage,20,days,1,1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,salinity,sea water (36 ppK) 50% diluted sea water (18 ppK) or distilled water (0 ppK),18,ppK,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,juvenile (L1 to adult),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0001,development time,mean duration of life stage,19.9,days,1,1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,salinity,sea water (36 ppK) 50% diluted sea water (18 ppK) or distilled water (0 ppK),36,ppK,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,juvenile (L1 to adult),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0002,survival,percent surviving life stage,98.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,salinity,sea water (36 ppK) 50% diluted sea water (18 ppK) or distilled water (0 ppK),0,ppK,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,juvenile (L1 to adult emergence),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0002,survival,percent surviving life stage,88.3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,salinity,sea water (36 ppK) 50% diluted sea water (18 ppK) or distilled water (0 ppK),18,ppK,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,juvenile (L1 to adult emergence),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0002,survival,percent surviving life stage,93.3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,salinity,sea water (36 ppK) 50% diluted sea water (18 ppK) or distilled water (0 ppK),36,ppK,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,juvenile (L1 to adult emergence),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0004,body size,mean wing length (excluding fringe),4.62,mm,0.07,0.07,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,adult,NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0004,body size,mean wing length (excluding fringe),4.01,mm,0.06,0.07,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0004,body size,mean wing length (excluding fringe),3.82,mm,0.05,0.07,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0004,body size,mean wing length (excluding fringe),3.42,mm,0.04,0.06,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,adult,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,MSS0004,body size,mean wing length (excluding fringe),3.22,mm,0.05,0.03,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,adult,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,1st instar larvae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
MSS0005,NA,fecundity,individual level eggs upon dissection (7 days after blood meal) as a function of body size (wing length),59,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,3.6,mm,wing length from wing tip to arculus excluding fringe,figure 3,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,pupae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
MSS0006,NA,fecundity,individual level eggs upon dissection (7 days after blood meal) as a function of body size (wing length),40,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,3.8,mm,wing length from wing tip to arculus excluding fringe,figure 3,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,pupae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
MSS0007,NA,fecundity,individual level eggs upon dissection (7 days after blood meal) as a function of body size (wing length),51,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,3.8,mm,wing length from wing tip to arculus excluding fringe,figure 3,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,pupae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
MSS0008,NA,fecundity,individual level eggs upon dissection (7 days after blood meal) as a function of body size (wing length),49,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,4,mm,wing length from wing tip to arculus excluding fringe,figure 3,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,pupae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
MSS0009,NA,fecundity,individual level eggs upon dissection (7 days after blood meal) as a function of body size (wing length),48,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,4.3,mm,wing length from wing tip to arculus excluding fringe,figure 3,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,pupae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
MSS0010,NA,fecundity,individual level eggs upon dissection (7 days after blood meal) as a function of body size (wing length),55,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,4.1,mm,wing length from wing tip to arculus excluding fringe,figure 3,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,pupae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
MSS0011,NA,fecundity,individual level eggs upon dissection (7 days after blood meal) as a function of body size (wing length),54,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,4.2,mm,wing length from wing tip to arculus excluding fringe,figure 3,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,pupae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
MSS0012,NA,fecundity,individual level eggs upon dissection (7 days after blood meal) as a function of body size (wing length),58,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,4.2,mm,wing length from wing tip to arculus excluding fringe,figure 3,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,pupae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
MSS0013,NA,fecundity,individual level eggs upon dissection (7 days after blood meal) as a function of body size (wing length),62,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,4.2,mm,wing length from wing tip to arculus excluding fringe,figure 3,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,pupae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
MSS0014,NA,fecundity,individual level eggs upon dissection (7 days after blood meal) as a function of body size (wing length),64,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,4.2,mm,wing length from wing tip to arculus excluding fringe,figure 3,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,pupae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
MSS0015,NA,fecundity,individual level eggs upon dissection (7 days after blood meal) as a function of body size (wing length),61,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,4.3,mm,wing length from wing tip to arculus excluding fringe,figure 3,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,pupae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
MSS0016,NA,fecundity,individual level eggs upon dissection (7 days after blood meal) as a function of body size (wing length),65,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,4.3,mm,wing length from wing tip to arculus excluding fringe,figure 3,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,pupae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
MSS0017,NA,fecundity,individual level eggs upon dissection (7 days after blood meal) as a function of body size (wing length),60,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,4.6,mm,wing length from wing tip to arculus excluding fringe,figure 3,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,pupae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
MSS0018,NA,fecundity,individual level eggs upon dissection (7 days after blood meal) as a function of body size (wing length),66,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,4.4,mm,wing length from wing tip to arculus excluding fringe,figure 3,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,pupae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
MSS0019,NA,fecundity,individual level eggs upon dissection (7 days after blood meal) as a function of body size (wing length),68,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,4.4,mm,wing length from wing tip to arculus excluding fringe,figure 3,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,pupae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
MSS0020,NA,fecundity,individual level eggs upon dissection (7 days after blood meal) as a function of body size (wing length),67,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,4.3,mm,wing length from wing tip to arculus excluding fringe,figure 3,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,pupae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
MSS0021,NA,fecundity,individual level eggs upon dissection (7 days after blood meal) as a function of body size (wing length),69,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,4.3,mm,wing length from wing tip to arculus excluding fringe,figure 3,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,pupae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
MSS0022,NA,fecundity,individual level eggs upon dissection (7 days after blood meal) as a function of body size (wing length),70,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,4.3,mm,wing length from wing tip to arculus excluding fringe,figure 3,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,pupae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
MSS0023,NA,fecundity,individual level eggs upon dissection (7 days after blood meal) as a function of body size (wing length),69,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,4.2,mm,wing length from wing tip to arculus excluding fringe,figure 3,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,pupae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
MSS0024,NA,fecundity,individual level eggs upon dissection (7 days after blood meal) as a function of body size (wing length),72,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,4.1,mm,wing length from wing tip to arculus excluding fringe,figure 3,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,pupae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
MSS0025,NA,fecundity,individual level eggs upon dissection (7 days after blood meal) as a function of body size (wing length),75,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,4.3,mm,wing length from wing tip to arculus excluding fringe,figure 3,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,pupae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
MSS0026,NA,fecundity,individual level eggs upon dissection (7 days after blood meal) as a function of body size (wing length),77,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,4.3,mm,wing length from wing tip to arculus excluding fringe,figure 3,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,pupae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
MSS0027,NA,fecundity,individual level eggs upon dissection (7 days after blood meal) as a function of body size (wing length),78,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,4.3,mm,wing length from wing tip to arculus excluding fringe,figure 3,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,pupae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
MSS0028,NA,fecundity,individual level eggs upon dissection (7 days after blood meal) as a function of body size (wing length),72,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,4.6,mm,wing length from wing tip to arculus excluding fringe,figure 3,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,pupae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
MSS0029,NA,fecundity,individual level eggs upon dissection (7 days after blood meal) as a function of body size (wing length),80,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,4.9,mm,wing length from wing tip to arculus excluding fringe,figure 3,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,pupae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
MSS0030,NA,fecundity,individual level eggs upon dissection (7 days after blood meal) as a function of body size (wing length),83,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,4.8,mm,wing length from wing tip to arculus excluding fringe,figure 3,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,pupae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
MSS0031,NA,fecundity,individual level eggs upon dissection (7 days after blood meal) as a function of body size (wing length),86,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,4.7,mm,wing length from wing tip to arculus excluding fringe,figure 3,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,pupae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
MSS0032,NA,fecundity,individual level eggs upon dissection (7 days after blood meal) as a function of body size (wing length),87,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,4.5,mm,wing length from wing tip to arculus excluding fringe,figure 3,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,pupae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
MSS0033,NA,fecundity,individual level eggs upon dissection (7 days after blood meal) as a function of body size (wing length),88,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,4.5,mm,wing length from wing tip to arculus excluding fringe,figure 3,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,pupae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
MSS0034,NA,fecundity,individual level eggs upon dissection (7 days after blood meal) as a function of body size (wing length),100,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,4.3,mm,wing length from wing tip to arculus excluding fringe,figure 3,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,pupae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
MSS0035,NA,fecundity,individual level eggs upon dissection (7 days after blood meal) as a function of body size (wing length),94,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,4.6,mm,wing length from wing tip to arculus excluding fringe,figure 3,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,pupae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
MSS0036,NA,fecundity,individual level eggs upon dissection (7 days after blood meal) as a function of body size (wing length),100,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,4.6,mm,wing length from wing tip to arculus excluding fringe,figure 3,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,pupae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
MSS0037,NA,fecundity,individual level eggs upon dissection (7 days after blood meal) as a function of body size (wing length),111,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,5,mm,wing length from wing tip to arculus excluding fringe,figure 3,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,pupae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
MSS0038,NA,fecundity,individual level eggs upon dissection (7 days after blood meal) as a function of body size (wing length),103,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Breamlea Flora Reserve (near Geelong Victoria Australia),field (salt marsh),01/01/2002,4,decimal,-38.21667,144.5833,Aedes camptorhynchus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,camptorhynchus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,5.1,mm,wing length from wing tip to arculus excluding fringe,figure 3,Barton and Aberton 2005. Larval development and autogeny in Ochlerotatus camptorhynchus (Thomson) (Diptera: Culicidae) from Southern Victoria. The Proceedings of the Linnean Society of New South Wales 126,NA,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,pupae collected in the field and brought into the lab. published under old nomenclature Ochlerotatus camptorhynchus,TRUE,01/01/2005
NA,NA,development time,mean duration of life stage,9,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,for the egg phase the first 20 postures of each treatment were evaluated. interactor1temp is the water temperature that eggs were exposed to in incubators held at 18,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,6.2,days,0.23,0.23,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,for the egg phase the first 20 postures of each treatment were evaluated. interactor1temp is the water temperature that eggs were exposed to in incubators held at 18,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,4.1,days,0.15,0.15,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,for the egg phase the first 20 postures of each treatment were evaluated. interactor1temp is the water temperature that eggs were exposed to in incubators held at 18,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,3.2,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,for the egg phase the first 20 postures of each treatment were evaluated. interactor1temp is the water temperature that eggs were exposed to in incubators held at 18,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,3.5,days,0.07,0.07,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,for the egg phase the first 20 postures of each treatment were evaluated. interactor1temp is the water temperature that eggs were exposed to in incubators held at 18,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,19.6,days,0.38,0.38,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,13.4,days,0.5,0.5,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,8.7,days,0.28,0.28,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,33,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,6.4,days,0.17,0.17,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,6.9,days,0.29,0.29,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,37,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,7.2,days,0.18,0.18,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,3.2,days,0.04,0.04,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,2.7,days,0.11,0.11,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,33,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,1.2,days,0.05,0.05,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,1.4,days,0.09,0.09,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,37,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,36.1,days,0.57,0.57,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,23.1,days,0.25,0.25,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,15.3,days,0.29,0.29,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,33,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,42.07,percent,7.9,7.9,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,18,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,53.75,percent,7.5,7.5,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,22,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,89.98,percent,3.1,3.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,26,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,28,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,97.35,percent,0.97,0.97,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,32,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,70.01,percent,4.8,4.8,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,34,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,98.33,percent,1.3,1.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,246,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,18,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,99.33,percent,0.42,0.42,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,248,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,22,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,96.16,percent,0.6,0.6,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,91.33,percent,2.6,2.6,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,228,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,28,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,72,percent,6.3,6.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,32,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,87.53,percent,2.1,2.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,219,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,34,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,92.12,percent,3.2,3.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,227,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,18,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,94.86,percent,1.5,1.5,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,235,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,22,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,96.23,percent,1.6,1.6,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,231,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,26,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,99.62,percent,1.8,1.8,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,227,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,28,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,92.88,percent,2.3,2.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,167,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,32,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,92.88,percent,2.3,2.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,203,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,34,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,30/10/2009
NA,NA,longevity,mean duration of life stage,22.5,days,1.9,1.9,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,18,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,30/10/2009
NA,NA,longevity,mean duration of life stage,29.24,days,1.5,1.5,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,22,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,30/10/2009
NA,NA,longevity,mean duration of life stage,33.31,days,1.3,1.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,26,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,30/10/2009
NA,NA,longevity,mean duration of life stage,14.22,days,0.07,0.07,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,28,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,30/10/2009
NA,NA,longevity,mean duration of life stage,10.16,days,1.3,1.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,32,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,30/10/2009
NA,NA,longevity,mean duration of life stage,17.94,days,3.3,3.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,34,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,30/10/2009
NA,NA,longevity,mean duration of life stage,21.9,days,1.6,1.6,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,30/10/2009
NA,NA,longevity,mean duration of life stage,27.52,days,2.4,2.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,30/10/2009
NA,NA,longevity,mean duration of life stage,25.46,days,4.2,4.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,30/10/2009
NA,NA,longevity,mean duration of life stage,13.81,days,0.5,0.5,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,30/10/2009
NA,NA,longevity,mean duration of life stage,13.44,days,0.6,0.6,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,30/10/2009
NA,NA,longevity,mean duration of life stage,13.48,days,1.2,1.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,30/10/2009
NA,NA,fecundity,mean lifetime eggs per female,46.9,eggs individual-1,16.2,16.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50 multiplied by 0.5 to give an assumed sex ratio of 50:50,TRUE,30/10/2009
NA,NA,fecundity,mean lifetime eggs per female,67.4,eggs individual-1,19.65,19.65,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50 multiplied by 0.5 to give an assumed sex ratio of 50:50,TRUE,30/10/2009
NA,NA,fecundity,mean lifetime eggs per female,610.6,eggs individual-1,121.6,121.6,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50 multiplied by 0.5 to give an assumed sex ratio of 50:50,TRUE,30/10/2009
NA,NA,fecundity,mean lifetime eggs per female,66.6,eggs individual-1,23.15,23.15,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50 multiplied by 0.5 to give an assumed sex ratio of 50:50,TRUE,30/10/2009
NA,NA,fecundity,mean lifetime eggs per female,50.6,eggs individual-1,10.5,10.5,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50 multiplied by 0.5 to give an assumed sex ratio of 50:50,TRUE,30/10/2009
NA,NA,fecundity,mean lifetime eggs per female,97.9,eggs individual-1,16.1,16.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50 multiplied by 0.5 to give an assumed sex ratio of 50:50,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,13.66,days,0.41,0.41,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,18,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,for the egg phase the first 20 postures of each treatment were evaluated,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,6.99,days,0.54,0.54,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,22,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,for the egg phase the first 20 postures of each treatment were evaluated,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,6.12,days,0.25,0.25,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,26,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,for the egg phase the first 20 postures of each treatment were evaluated,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,3.17,days,0.27,0.27,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,28,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,for the egg phase the first 20 postures of each treatment were evaluated,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,2.94,days,0.17,0.17,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,32,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,for the egg phase the first 20 postures of each treatment were evaluated,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,4.24,days,0.32,0.32,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,34,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,for the egg phase the first 20 postures of each treatment were evaluated,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,12.69,days,0.15,0.15,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,246,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,18,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=21,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,7.53,days,0.24,0.24,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,248,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,22,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=27,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,5.69,days,0.29,0.29,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=45,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,5.43,days,0.05,0.05,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,228,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,28,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,4.67,days,0.23,0.23,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,32,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=49,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,3.68,days,0.06,0.06,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,219,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,34,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=35,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,5.86,days,0.06,0.06,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,227,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,18,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=20,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,3.6,days,0.04,0.04,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,235,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,22,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=26,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,2.06,days,0.02,0.02,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,231,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,26,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=43,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,2,days,0.004,0.004,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,227,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,28,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=45,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,1.72,days,0.04,0.04,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,167,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,32,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=35,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,1.49,days,0.01,0.01,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,203,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,34,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=30,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,10.9,days,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,11.8,days,0.4,0.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,37,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,27.1,days,0.57,0.57,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,109,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from an initial n=120,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,16.9,days,0.25,0.25,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,110,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from an initial n=120,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,11.2,days,0.29,0.29,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,99,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from an initial n=120,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,7.7,days,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,112,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from an initial n=120,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,8.3,days,0.4,0.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,111,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from an initial n=120,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,24.5,percent,3.97,3.97,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,84.2,percent,3.13,3.13,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,42,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,71.5,percent,3.59,3.59,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,36,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,71.8,percent,3.42,3.42,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,36,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,76.9,percent,3.31,3.31,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,38,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,96.6,percent,1.88,1.88,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from n=120,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,95.8,percent,1.93,1.93,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from n=120,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,91.6,percent,2.97,2.97,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from n=120,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,96.6,percent,1.88,1.88,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from n=120,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,96.6,percent,2.56,2.56,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from n=120,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,97.5,percent,1.79,1.79,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from n=120,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from n=120,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,99.1,percent,0.83,0.83,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from n=120,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from n=120,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,99.1,percent,0.83,0.83,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from n=120,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,90.83,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Estimated from table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,91.67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Estimated from table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,82.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,21,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Estimated from table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,93.33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Estimated from table 5,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,92.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Estimated from table 6,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,longevity,mean duration of life stage,36.9,days,1.81,1.81,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,18,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,longevity,mean duration of life stage,32.6,days,2.67,2.67,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,longevity,mean duration of life stage,44.8,days,3.38,3.38,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,longevity,mean duration of life stage,19.3,days,0.96,0.96,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,longevity,mean duration of life stage,15.4,days,0.16,0.16,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,longevity,mean duration of life stage,43.6,days,2.36,2.36,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,longevity,mean duration of life stage,38.5,days,2.38,2.38,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,longevity,mean duration of life stage,43.3,days,4.01,4.01,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,longevity,mean duration of life stage,20,days,1.38,1.38,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,longevity,mean duration of life stage,17.4,days,0.68,0.68,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,fecundity,mean lifetime eggs per individual,31,eggs individual-1,3.28,3.28,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,fecundity,mean lifetime eggs per individual,99,eggs individual-1,6.98,6.98,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,fecundity,mean lifetime eggs per individual,238.6,eggs individual-1,36.59,36.59,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,fecundity,mean lifetime eggs per individual,72.5,eggs individual-1,6.73,6.73,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,fecundity,mean lifetime eggs per individual,18.9,eggs individual-1,1.25,1.25,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,9.1,days,0.25,0.25,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,for the egg phase the first 20 postures of each treatment were evaluated. interactor1temp is the water temperature that eggs were exposed to in incubators held at 32,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,6.1,days,0.15,0.15,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,for the egg phase the first 20 postures of each treatment were evaluated. interactor1temp is the water temperature that eggs were exposed to in incubators held at 32,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,4.7,days,0.17,0.17,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,for the egg phase the first 20 postures of each treatment were evaluated. interactor1temp is the water temperature that eggs were exposed to in incubators held at 32,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,3.2,days,0.12,0.12,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,for the egg phase the first 20 postures of each treatment were evaluated. interactor1temp is the water temperature that eggs were exposed to in incubators held at 32,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,3.6,days,0.18,0.18,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,for the egg phase the first 20 postures of each treatment were evaluated. interactor1temp is the water temperature that eggs were exposed to in incubators held at 32,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,18.9,days,0.8,0.8,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,13.4,days,0.09,0.09,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,37,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,10.2,days,0.11,0.11,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,42,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,7.9,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,43,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,7.5,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,32,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,6.4,days,0.08,0.08,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,3.2,days,0.03,0.03,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,37,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,33.38,days,1.79,1.79,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,227,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,18,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,18.39,days,0.91,0.91,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,235,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,22,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,14.08,days,0.6,0.6,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,231,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,26,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,10.19,days,0.14,0.14,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,227,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,28,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,9.39,days,0.4,0.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,167,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,32,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,9.53,days,0.59,0.59,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,203,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,34,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,18.55,days,1.79,1.79,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,227,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,18,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,estimated from table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,11.13,days,0.91,0.91,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,235,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,estimated from table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,7.75,days,0.6,0.6,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,231,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,estimated from table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,7.43,days,0.14,0.14,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,227,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,28,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,estimated from table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,6.39,days,0.4,0.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,167,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,estimated from table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,5.17,days,0.59,0.59,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,203,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,estimated from table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,92.12,percent,3.2,3.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,227,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,18,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,94.86,percent,1.5,1.5,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,235,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,96.23,percent,1.6,1.6,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,231,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,99.62,percent,1.8,1.8,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,227,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,28,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,92.88,percent,2.3,2.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,167,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,92.88,percent,2.3,2.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Boqueirao Paraiba Brazil,field,NA,0,decimal,-7.490833,-36.135833,Aedes aegypti,NA,NA,NA,203,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,76.76,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,18,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,79.42,percent,5,5,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,22,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,93.71,percent,4.14,4.14,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,26,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,87.82,percent,5.9,5.9,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,28,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,64.81,percent,10.7,10.7,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,32,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,70,percent,23.8,23.8,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,34,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,250,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,18,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,99.66,percent,0.33,0.33,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,249,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,22,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,99.66,percent,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,249,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,250,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,28,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,250,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,32,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,250,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,34,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,94,percent,1.2,1.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,235,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,18,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,88.66,percent,1.9,1.9,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,221,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,22,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,94,percent,1.2,1.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,234,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,26,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,57.66,percent,0.9,0.9,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,144,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,28,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,92.16,percent,1.7,1.7,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,230,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,32,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,89,percent,3.4,3.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,223,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,34,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,30/10/2009
NA,NA,longevity,mean duration of life stage,6.4,days,1.6,1.6,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,18,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,30/10/2009
NA,NA,longevity,mean duration of life stage,33.22,days,1.9,1.9,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,22,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,30/10/2009
NA,NA,longevity,mean duration of life stage,33.56,days,2.3,2.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,26,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,30/10/2009
NA,NA,longevity,mean duration of life stage,19.94,days,1.4,1.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,28,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,30/10/2009
NA,NA,longevity,mean duration of life stage,13.28,days,3,3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,32,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,30/10/2009
NA,NA,longevity,mean duration of life stage,10.3,days,0.9,0.9,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,34,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,30/10/2009
NA,NA,longevity,mean duration of life stage,15.71,days,2.5,2.5,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,30/10/2009
NA,NA,longevity,mean duration of life stage,27.3,days,1.9,1.9,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,30/10/2009
NA,NA,longevity,mean duration of life stage,40.54,days,2.1,2.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,30/10/2009
NA,NA,longevity,mean duration of life stage,21.44,days,1.5,1.5,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,30/10/2009
NA,NA,longevity,mean duration of life stage,16.76,days,3.6,3.6,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,30/10/2009
NA,NA,longevity,mean duration of life stage,12.16,days,1.4,1.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,30/10/2009
NA,NA,fecundity,mean lifetime eggs per female,3.9,eggs individual-1,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50 multiplied by 0.5 to give an assumed sex ratio of 50:50,TRUE,30/10/2009
NA,NA,fecundity,mean lifetime eggs per female,117.9,eggs individual-1,37.6,37.6,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50 multiplied by 0.5 to give an assumed sex ratio of 50:50,TRUE,30/10/2009
NA,NA,fecundity,mean lifetime eggs per female,89.4,eggs individual-1,24.7,24.7,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50 multiplied by 0.5 to give an assumed sex ratio of 50:50,TRUE,30/10/2009
NA,NA,fecundity,mean lifetime eggs per female,84.1,eggs individual-1,29.8,29.8,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50 multiplied by 0.5 to give an assumed sex ratio of 50:50,TRUE,30/10/2009
NA,NA,fecundity,mean lifetime eggs per female,13.4,eggs individual-1,8.7,8.7,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50 multiplied by 0.5 to give an assumed sex ratio of 50:50,TRUE,30/10/2009
NA,NA,fecundity,mean lifetime eggs per female,3.4,eggs individual-1,2.8,2.8,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50 multiplied by 0.5 to give an assumed sex ratio of 50:50,TRUE,30/10/2009
NA,NA,EIP10,mean time to 10% infected after exposure to Zika virus,22.6,days,18.3,18.3,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rome Italy,colony,NA,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,19,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,females were exposed to PE243 isolate of ZIKV from Brazil at 7 days post-emergence,TRUE,01/01/2020
NA,NA,EIP10,mean time to 10% infected after exposure to Zika virus,20.4,days,17,17,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rome Italy,colony,NA,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,females were exposed to PE243 isolate of ZIKV from Brazil at 7 days post-emergence,TRUE,01/01/2020
NA,NA,EIP10,mean time to 10% infected after exposure to Zika virus,17.2,days,14.6,14.6,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rome Italy,colony,NA,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,24,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,females were exposed to PE243 isolate of ZIKV from Brazil at 7 days post-emergence,TRUE,01/01/2020
NA,NA,EIP10,mean time to 10% infected after exposure to Zika virus,14,days,11.1,11.1,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rome Italy,colony,NA,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,females were exposed to PE243 isolate of ZIKV from Brazil at 7 days post-emergence,TRUE,01/01/2020
NA,NA,EIP10,mean time to 10% infected after exposure to Zika virus,9.7,days,4.7,4.7,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rome Italy,colony,NA,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,31,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,females were exposed to PE243 isolate of ZIKV from Brazil at 7 days post-emergence,TRUE,01/01/2020
NA,NA,EIP10,mean time to 10% infected after exposure to Zika virus,25.6,days,20.8,20.8,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,19,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,females were exposed to PE243 isolate of ZIKV from Brazil at 7 days post-emergence,TRUE,01/01/2020
NA,NA,EIP10,mean time to 10% infected after exposure to Zika virus,23.4,days,19.4,19.4,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,21,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,females were exposed to PE243 isolate of ZIKV from Brazil at 7 days post-emergence,TRUE,01/01/2020
NA,NA,EIP10,mean time to 10% infected after exposure to Zika virus,20.2,days,16.8,16.8,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,24,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,females were exposed to PE243 isolate of ZIKV from Brazil at 7 days post-emergence,TRUE,01/01/2020
NA,NA,EIP10,mean time to 10% infected after exposure to Zika virus,17,days,13.4,13.4,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,27,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,females were exposed to PE243 isolate of ZIKV from Brazil at 7 days post-emergence,TRUE,01/01/2020
NA,NA,EIP10,mean time to 10% infected after exposure to Zika virus,12.7,days,7.5,7.5,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,31,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,females were exposed to PE243 isolate of ZIKV from Brazil at 7 days post-emergence,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,0,days,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,31,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive at this time point (secondstressorvalue) from an intitial n=3 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,55,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,5,days,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,31,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive at this time point (secondstressorvalue) from an intitial n=9 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,57,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,7,days,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,31,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive at this time point (secondstressorvalue) from an intitial n=14 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,26,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,10,days,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,31,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive at this time point (secondstressorvalue) from an intitial n=35 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,27,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,14,days,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,31,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive at this time point (secondstressorvalue) from an intitial n=47 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,17,days,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,31,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive at this time point (secondstressorvalue) from an intitial n=43 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,21,days,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,31,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive at this time point (secondstressorvalue) from an intitial n=50 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,28,days,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,31,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive at this time point (secondstressorvalue) from an intitial n=47 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,0,days,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,27,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive at this time point (secondstressorvalue) from an intitial n=3 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,83,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,5,days,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,27,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive at this time point (secondstressorvalue) from an intitial n=6 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,88,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,7,days,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,27,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive at this time point (secondstressorvalue) from an intitial n=9 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,77,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,10,days,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,27,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive at this time point (secondstressorvalue) from an intitial n=13 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,68,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,14,days,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,21,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,27,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive at this time point (secondstressorvalue) from an intitial n=31 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,71,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,17,days,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,27,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive at this time point (secondstressorvalue) from an intitial n=24 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,55,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,21,days,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,27,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive at this time point (secondstressorvalue) from an intitial n=27 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,28,days,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,27,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive at this time point (secondstressorvalue) from an intitial n=34 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,0,days,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,24,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive at this time point (secondstressorvalue) from an intitial n=3 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,5,days,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,24,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive at this time point (secondstressorvalue) from an intitial n=4 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,7,days,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,24,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive at this time point (secondstressorvalue) from an intitial n=7 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,75,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,10,days,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,24,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive at this time point (secondstressorvalue) from an intitial n=12 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,94,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,14,days,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,24,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive at this time point (secondstressorvalue) from an intitial n=18 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,87,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,17,days,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,21,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,24,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive at this time point (secondstressorvalue) from an intitial n=24 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,76,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,21,days,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,24,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive at this time point (secondstressorvalue) from an intitial n=21 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,71,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,28,days,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,24,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive at this time point (secondstressorvalue) from an intitial n=24 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,0,days,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,21,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive at this time point (secondstressorvalue) from an intitial n=3 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,5,days,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,21,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive at this time point (secondstressorvalue) from an intitial n=5 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,86,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,7,days,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,21,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive at this time point (secondstressorvalue) from an intitial n=7 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,77,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,10,days,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,21,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive at this time point (secondstressorvalue) from an intitial n=13 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,96,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,14,days,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,21,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive at this time point (secondstressorvalue) from an intitial n=21 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,79,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,17,days,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,21,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive at this time point (secondstressorvalue) from an intitial n=19 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,76,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,21,days,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,21,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive at this time point (secondstressorvalue) from an intitial n=21 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,80,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,28,days,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,21,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive at this time point (secondstressorvalue) from an intitial n=20 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,0,days,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,19,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive at this time point (secondstressorvalue) from an intitial n=3 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,83,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,5,days,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,19,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive at this time point (secondstressorvalue) from an intitial n=5 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,7,days,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,19,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive at this time point (secondstressorvalue) from an intitial n=7 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,91,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,10,days,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,19,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive at this time point (secondstressorvalue) from an intitial n=12 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,86,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,14,days,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,19,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive at this time point (secondstressorvalue) from an intitial n=14 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,90,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,17,days,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,19,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive at this time point (secondstressorvalue) from an intitial n=21 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,84,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,21,days,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,19,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive at this time point (secondstressorvalue) from an intitial n=19 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,90,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,28,days,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,19,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive at this time point (secondstressorvalue) from an intitial n=20 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,0,days,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,17,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive at this time point (secondstressorvalue) from an intitial n=3 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,83,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,5,days,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,17,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive at this time point (secondstressorvalue) from an intitial n=6 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,7,days,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,17,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive at this time point (secondstressorvalue) from an intitial n=10 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,90,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,10,days,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,17,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive at this time point (secondstressorvalue) from an intitial n=11 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,93,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,14,days,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,17,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive at this time point (secondstressorvalue) from an intitial n=15 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,79,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,17,days,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,17,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive at this time point (secondstressorvalue) from an intitial n=19 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,85,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,21,days,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,17,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive at this time point (secondstressorvalue) from an intitial n=20 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,86,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,28,days,NA,NA,NA,NA,NA,Cheshire England,field (F1),01/04/2016,4,decimal,53.270278,-3.048611,Ochleratatus detritus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Ochleratatus,detritus,adult,female,17,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive at this time point (secondstressorvalue) from an intitial n=23 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,0,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,31,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive from an intitial n=5 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,91,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,5,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,31,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive from an intitial n=11 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,73,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,7,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,31,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive from an intitial n=15 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,73,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,10,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,31,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive from an intitial n=22 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,65,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,14,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,31,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive from an intitial n=17 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,76,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,17,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,31,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive from an intitial n=25 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,56,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,21,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,31,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive from an intitial n=25 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,49,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,28,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,31,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive from an intitial n=35 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,0,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive from an intitial n=5 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,91,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,5,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive from an intitial n=11 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,91,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,7,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive from an intitial n=11 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,82,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,10,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive from an intitial n=17 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,72,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,14,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive from an intitial n=18 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,80,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,17,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive from an intitial n=20 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,75,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,21,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive from an intitial n=20 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,66,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,28,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive from an intitial n=24 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,0,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,24,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive from an intitial n=5 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,5,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,24,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive from an intitial n=10 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,7,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,24,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive from an intitial n=10 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,86,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,10,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,24,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive from an intitial n=15 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,83,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,14,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,24,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive from an intitial n=18 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,78,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,17,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,24,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive from an intitial n=22 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,73,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,21,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,24,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive from an intitial n=17 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,77,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,28,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,24,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive from an intitial n=22 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,0,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive from an intitial n=5 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,5,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive from an intitial n=10 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,91,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,7,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive from an intitial n=11 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,94,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,10,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive from an intitial n=17 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,85,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,14,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive from an intitial n=13 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,84,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,17,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive from an intitial n=19 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,75,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,21,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive from an intitial n=20 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,78,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,28,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive from an intitial n=18 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,0,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/05/2016,1,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,19,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive from an intitial n=5 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,5,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/06/2016,2,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,19,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive from an intitial n=10 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,7,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,19,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive from an intitial n=10 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,93,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,10,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,19,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive from an intitial n=14 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,78,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,14,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,19,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive from an intitial n=14 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,83,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,17,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,19,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive from an intitial n=18 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,87,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,21,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,19,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive from an intitial n=15 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,82,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,28,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,19,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive from an intitial n=17 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,0,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,17,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive from an intitial n=5 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,5,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,17,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive from an intitial n=10 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,7,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,17,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive from an intitial n=10 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,94,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,10,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,17,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive from an intitial n=15 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,84,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,14,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,17,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive from an intitial n=13 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,79,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,17,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,17,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive from an intitial n=19 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,75,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,21,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,17,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive from an intitial n=16 at the start of the experiment,TRUE,01/01/2020
NA,NA,survival,percent adult survival as a function of time (secondstressor) and temperature,80,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,28,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,17,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that were alive from an intitial n=15 at the start of the experiment,TRUE,01/01/2020
NA,NA,development time,mean duration of life stage,2.1,days,0.02,0.02,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,42,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,2.1,days,0.02,0.02,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,43,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,1.2,days,0.04,0.04,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,32,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,22.5,days,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,37,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,16.6,days,0.19,0.19,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,42,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,13.7,days,0.29,0.29,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,43,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,11.6,days,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,32,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,16.8,days,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from an initial n=120,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,12.3,days,0.19,0.19,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from an initial n=120,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,10,days,0.29,0.29,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,118,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from an initial n=120,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,8.7,days,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,116,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from an initial n=120,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,73,percent,4.88,4.88,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,37,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,84.4,percent,2.99,2.99,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,42,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,87.2,percent,2.57,2.57,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,44,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,65.5,percent,4.42,4.42,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,33,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,95,percent,2.89,2.89,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,98.3,percent,1.67,1.67,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,96.6,percent,1.42,1.42,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,95,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Estimated from table 17,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Estimated from table 18,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Estimated from table 19,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,98.3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Estimated from table 20,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,96.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Estimated from table 21,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,longevity,mean duration of life stage,34,days,2.78,2.78,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,18,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,longevity,mean duration of life stage,30.8,days,1.06,1.06,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,longevity,mean duration of life stage,36.2,days,1.5,1.5,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,longevity,mean duration of life stage,23.3,days,0.5,0.5,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,longevity,mean duration of life stage,17.6,days,0.57,0.57,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,longevity,mean duration of life stage,36.5,days,1.73,1.73,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,longevity,mean duration of life stage,37.7,days,1.43,1.43,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,longevity,mean duration of life stage,38.2,days,1.09,1.09,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,longevity,mean duration of life stage,28.4,days,0.79,0.79,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,BRI006,longevity,maximum duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,adult diet,0 = water only 1 = sucrose 1% and water 2 = sucrose 10% and water,0,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,12,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI006,longevity,maximum duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,adult diet,0 = water only 1 = sucrose 1% and water 2 = sucrose 10% and water,0,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,17,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI006,longevity,maximum duration of life stage,95,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,adult diet,0 = water only 1 = sucrose 1% and water 2 = sucrose 10% and water,1,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,17,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI006,longevity,maximum duration of life stage,123,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,adult diet,0 = water only 1 = sucrose 1% and water 2 = sucrose 10% and water,2,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,17,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI006,longevity,maximum duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,adult diet,0 = water only 1 = sucrose 1% and water 2 = sucrose 10% and water,0,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI006,longevity,maximum duration of life stage,47,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,adult diet,0 = water only 1 = sucrose 1% and water 2 = sucrose 10% and water,1,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI006,longevity,maximum duration of life stage,112,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,adult diet,0 = water only 1 = sucrose 1% and water 2 = sucrose 10% and water,2,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI006,longevity,maximum duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,adult diet,0 = water only 1 = sucrose 1% and water 2 = sucrose 10% and water,0,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI006,longevity,maximum duration of life stage,47,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,adult diet,0 = water only 1 = sucrose 1% and water 2 = sucrose 10% and water,1,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI006,longevity,maximum duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,adult diet,0 = water only 1 = sucrose 1% and water 2 = sucrose 10% and water,2,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI006,longevity,number of days when 90% of population were still alive,9.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,adult diet,0 = water only 1 = sucrose 1% and water 2 = sucrose 10% and water,0,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,12,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI006,longevity,number of days when 90% of population were still alive,15.2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,adult diet,0 = water only 1 = sucrose 1% and water 2 = sucrose 10% and water,0,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,17,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI006,longevity,number of days when 90% of population were still alive,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,adult diet,0 = water only 1 = sucrose 1% and water 2 = sucrose 10% and water,1,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,17,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI006,longevity,number of days when 90% of population were still alive,47,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,adult diet,0 = water only 1 = sucrose 1% and water 2 = sucrose 10% and water,2,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,17,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI006,longevity,number of days when 90% of population were still alive,6.2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,adult diet,0 = water only 1 = sucrose 1% and water 2 = sucrose 10% and water,0,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI006,longevity,number of days when 90% of population were still alive,6.2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,adult diet,0 = water only 1 = sucrose 1% and water 2 = sucrose 10% and water,1,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI006,longevity,number of days when 90% of population were still alive,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,adult diet,0 = water only 1 = sucrose 1% and water 2 = sucrose 10% and water,2,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI006,longevity,number of days when 90% of population were still alive,4.2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,adult diet,0 = water only 1 = sucrose 1% and water 2 = sucrose 10% and water,0,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI006,longevity,number of days when 90% of population were still alive,7.6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,adult diet,0 = water only 1 = sucrose 1% and water 2 = sucrose 10% and water,1,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI006,longevity,number of days when 90% of population were still alive,10.6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,adult diet,0 = water only 1 = sucrose 1% and water 2 = sucrose 10% and water,2,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI006,longevity,number of days when 50% of population were still alive,18.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,adult diet,0 = water only 1 = sucrose 1% and water 2 = sucrose 10% and water,0,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,12,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI006,longevity,number of days when 50% of population were still alive,17.9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,adult diet,0 = water only 1 = sucrose 1% and water 2 = sucrose 10% and water,0,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,17,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI006,longevity,number of days when 50% of population were still alive,64,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,adult diet,0 = water only 1 = sucrose 1% and water 2 = sucrose 10% and water,1,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,17,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI006,longevity,number of days when 50% of population were still alive,100,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,adult diet,0 = water only 1 = sucrose 1% and water 2 = sucrose 10% and water,2,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,17,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI006,longevity,number of days when 50% of population were still alive,7.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,adult diet,0 = water only 1 = sucrose 1% and water 2 = sucrose 10% and water,0,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI006,longevity,number of days when 50% of population were still alive,15.2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,adult diet,0 = water only 1 = sucrose 1% and water 2 = sucrose 10% and water,1,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI006,longevity,number of days when 50% of population were still alive,49,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,adult diet,0 = water only 1 = sucrose 1% and water 2 = sucrose 10% and water,2,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI006,longevity,number of days when 50% of population were still alive,5.6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,adult diet,0 = water only 1 = sucrose 1% and water 2 = sucrose 10% and water,0,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI006,longevity,number of days when 50% of population were still alive,22.8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,adult diet,0 = water only 1 = sucrose 1% and water 2 = sucrose 10% and water,1,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI006,longevity,number of days when 50% of population were still alive,16.2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,adult diet,0 = water only 1 = sucrose 1% and water 2 = sucrose 10% and water,2,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI006,longevity,number of days when 10% of population were still alive,23.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,adult diet,0 = water only 1 = sucrose 1% and water 2 = sucrose 10% and water,0,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,12,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI006,longevity,number of days when 10% of population were still alive,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,adult diet,0 = water only 1 = sucrose 1% and water 2 = sucrose 10% and water,0,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,17,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI006,longevity,number of days when 10% of population were still alive,77,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,adult diet,0 = water only 1 = sucrose 1% and water 2 = sucrose 10% and water,1,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,17,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI006,longevity,number of days when 10% of population were still alive,114.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,adult diet,0 = water only 1 = sucrose 1% and water 2 = sucrose 10% and water,2,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,17,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI006,longevity,number of days when 10% of population were still alive,8.8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,adult diet,0 = water only 1 = sucrose 1% and water 2 = sucrose 10% and water,0,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI006,longevity,number of days when 10% of population were still alive,29.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,adult diet,0 = water only 1 = sucrose 1% and water 2 = sucrose 10% and water,1,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI006,longevity,number of days when 10% of population were still alive,86,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,adult diet,0 = water only 1 = sucrose 1% and water 2 = sucrose 10% and water,2,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI006,longevity,number of days when 10% of population were still alive,7.2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,adult diet,0 = water only 1 = sucrose 1% and water 2 = sucrose 10% and water,0,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI006,longevity,number of days when 10% of population were still alive,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,adult diet,0 = water only 1 = sucrose 1% and water 2 = sucrose 10% and water,1,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI006,longevity,number of days when 10% of population were still alive,33.6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,adult diet,0 = water only 1 = sucrose 1% and water 2 = sucrose 10% and water,2,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,PH2,survival,percentage surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Winnipeg Manitoba,field,NA,0,decimal,49.884444,-97.146389,Aedes vixans,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vexans,juvenile,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Brust 1967. Weight and development time of different stadia of mosquitoes reared at various constant temperatures. The Canadian Entomologist. 99:9,10.4039/Ent99986-9,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/1967
NA,PH2,survival,percentage surviving life stage,4,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Winnipeg Manitoba,field,NA,0,decimal,49.884444,-97.146389,Aedes vixans,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vexans,juvenile,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Brust 1967. Weight and development time of different stadia of mosquitoes reared at various constant temperatures. The Canadian Entomologist. 99:9,10.4039/Ent99986-9,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/1967
NA,PH2,survival,percentage surviving life stage,43,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Winnipeg Manitoba,field,NA,0,decimal,49.884444,-97.146389,Aedes vixans,NA,NA,NA,86,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vexans,juvenile,NA,15.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Brust 1967. Weight and development time of different stadia of mosquitoes reared at various constant temperatures. The Canadian Entomologist. 99:9,10.4039/Ent99986-9,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/1967
NA,PH2,survival,percentage surviving life stage,78,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Winnipeg Manitoba,field,NA,0,decimal,49.884444,-97.146389,Aedes vixans,NA,NA,NA,156,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vexans,juvenile,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Brust 1967. Weight and development time of different stadia of mosquitoes reared at various constant temperatures. The Canadian Entomologist. 99:9,10.4039/Ent99986-9,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/1967
NA,PH2,survival,percentage surviving life stage,85,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Winnipeg Manitoba,field,NA,0,decimal,49.884444,-97.146389,Aedes vixans,NA,NA,NA,170,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vexans,juvenile,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Brust 1967. Weight and development time of different stadia of mosquitoes reared at various constant temperatures. The Canadian Entomologist. 99:9,10.4039/Ent99986-9,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/1967
NA,PH2,survival,percentage surviving life stage,70,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Winnipeg Manitoba,field,NA,0,decimal,49.884444,-97.146389,Aedes vixans,NA,NA,NA,140,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vexans,juvenile,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Brust 1967. Weight and development time of different stadia of mosquitoes reared at various constant temperatures. The Canadian Entomologist. 99:9,10.4039/Ent99986-9,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/1967
NA,PH2,survival,percentage surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Winnipeg Manitoba,field,NA,0,decimal,49.884444,-97.146389,Aedes nigromaculis,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,nigromaculis,juvenile,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Brust 1967. Weight and development time of different stadia of mosquitoes reared at various constant temperatures. The Canadian Entomologist. 99:9,10.4039/Ent99986-9,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/1967
NA,PH2,survival,percentage surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Winnipeg Manitoba,field,NA,0,decimal,49.884444,-97.146389,Aedes nigromaculis,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,nigromaculis,juvenile,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Brust 1967. Weight and development time of different stadia of mosquitoes reared at various constant temperatures. The Canadian Entomologist. 99:9,10.4039/Ent99986-9,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did not survive life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/1967
NA,PH2,survival,percentage surviving life stage,35,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Winnipeg Manitoba,field,NA,0,decimal,49.884444,-97.146389,Aedes nigromaculis,NA,NA,NA,70,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,nigromaculis,juvenile,NA,15.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Brust 1967. Weight and development time of different stadia of mosquitoes reared at various constant temperatures. The Canadian Entomologist. 99:9,10.4039/Ent99986-9,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/1967
NA,PH2,survival,percentage surviving life stage,82,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Winnipeg Manitoba,field,NA,0,decimal,49.884444,-97.146389,Aedes nigromaculis,NA,NA,NA,164,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,nigromaculis,juvenile,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Brust 1967. Weight and development time of different stadia of mosquitoes reared at various constant temperatures. The Canadian Entomologist. 99:9,10.4039/Ent99986-9,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/1967
NA,PH2,survival,percentage surviving life stage,77,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Winnipeg Manitoba,field,NA,0,decimal,49.884444,-97.146389,Aedes nigromaculis,NA,NA,NA,154,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,nigromaculis,juvenile,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Brust 1967. Weight and development time of different stadia of mosquitoes reared at various constant temperatures. The Canadian Entomologist. 99:9,10.4039/Ent99986-9,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/1967
NA,PH2,survival,percentage surviving life stage,72,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Winnipeg Manitoba,field,NA,0,decimal,49.884444,-97.146389,Aedes nigromaculis,NA,NA,NA,144,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,nigromaculis,juvenile,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Brust 1967. Weight and development time of different stadia of mosquitoes reared at various constant temperatures. The Canadian Entomologist. 99:9,10.4039/Ent99986-9,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/1967
NA,BUCK001,survival,proportion surviving life stage,0.884,proportion,0.018,0.018,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,250,mg,NA,NA,NA,NA,NA,Key West Florida USA,colony (F6),NA,0,decimal,24.57855475,-81.70039785,Aedes aegypti,NA,NA,NA,500,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval (L1 to pupa),NA,24,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Buckner et al. 2016. Larval temperature food effects on adult mosquito infection and vertical transmission of dengue-1 virus. J. Med. Entomol. 53:1,10.1093/jme/tjv145,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F6 progeny of larvae collected from Key West (Florida),TRUE,01/01/2016
NA,BUCK001,survival,proportion surviving life stage,0.953,proportion,0.011,0.011,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,250,mg,NA,NA,NA,NA,NA,Vero Beach Florida USA,field (F2),NA,0,decimal,27.58734199,-80.37339082,Aedes albopictus,NA,NA,NA,500,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval (L1 to pupa),NA,24,Celsius,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Buckner et al. 2016. Larval temperature food effects on adult mosquito infection and vertical transmission of dengue-1 virus. J. Med. Entomol. 53:1,10.1093/jme/tjv145,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F2 progeny of larvae collected from the campus of the Florida Medical Entomology Laboratory in Vero Beach Florida,TRUE,01/01/2016
NA,BUCK001,survival,proportion surviving life stage,0.822,proportion,0.13,0.13,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,500,mg,NA,NA,NA,NA,NA,Key West Florida USA,colony (F6),NA,0,decimal,24.57855475,-81.70039785,Aedes aegypti,NA,NA,NA,500,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval (L1 to pupa),NA,24,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Buckner et al. 2016. Larval temperature food effects on adult mosquito infection and vertical transmission of dengue-1 virus. J. Med. Entomol. 53:1,10.1093/jme/tjv145,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F6 progeny of larvae collected from Key West (Florida),TRUE,01/01/2016
NA,BUCK001,survival,proportion surviving life stage,0.953,proportion,0.011,0.011,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,500,mg,NA,NA,NA,NA,NA,Vero Beach Florida USA,field (F2),NA,0,decimal,27.58734199,-80.37339082,Aedes albopictus,NA,NA,NA,500,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval (L1 to pupa),NA,24,Celsius,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Buckner et al. 2016. Larval temperature food effects on adult mosquito infection and vertical transmission of dengue-1 virus. J. Med. Entomol. 53:1,10.1093/jme/tjv145,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F2 progeny of larvae collected from the campus of the Florida Medical Entomology Laboratory in Vero Beach Florida,TRUE,01/01/2016
NA,BUCK001,survival,proportion surviving life stage,0.591,proportion,0.141,0.141,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,250,mg,NA,NA,NA,NA,NA,Key West Florida USA,colony (F6),NA,0,decimal,24.57855475,-81.70039785,Aedes aegypti,NA,NA,NA,500,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval (L1 to pupa),NA,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Buckner et al. 2016. Larval temperature food effects on adult mosquito infection and vertical transmission of dengue-1 virus. J. Med. Entomol. 53:1,10.1093/jme/tjv145,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F6 progeny of larvae collected from Key West (Florida),TRUE,01/01/2016
NA,BUCK001,survival,proportion surviving life stage,0.848,proportion,0.083,0.083,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,250,mg,NA,NA,NA,NA,NA,Vero Beach Florida USA,field (F2),NA,0,decimal,27.58734199,-80.37339082,Aedes albopictus,NA,NA,NA,500,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval (L1 to pupa),NA,30,Celsius,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Buckner et al. 2016. Larval temperature food effects on adult mosquito infection and vertical transmission of dengue-1 virus. J. Med. Entomol. 53:1,10.1093/jme/tjv145,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F2 progeny of larvae collected from the campus of the Florida Medical Entomology Laboratory in Vero Beach Florida,TRUE,01/01/2016
NA,BUCK001,survival,proportion surviving life stage,0.902,proportion,0.036,0.036,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,500,mg,NA,NA,NA,NA,NA,Key West Florida USA,colony (F6),NA,0,decimal,24.57855475,-81.70039785,Aedes aegypti,NA,NA,NA,500,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval (L1 to pupa),NA,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Buckner et al. 2016. Larval temperature food effects on adult mosquito infection and vertical transmission of dengue-1 virus. J. Med. Entomol. 53:1,10.1093/jme/tjv145,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F6 progeny of larvae collected from Key West (Florida),TRUE,01/01/2016
NA,BUCK001,survival,proportion surviving life stage,0.888,proportion,0.025,0.025,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,500,mg,NA,NA,NA,NA,NA,Vero Beach Florida USA,field (F2),NA,0,decimal,27.58734199,-80.37339082,Aedes albopictus,NA,NA,NA,500,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval (L1 to pupa),NA,30,Celsius,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Buckner et al. 2016. Larval temperature food effects on adult mosquito infection and vertical transmission of dengue-1 virus. J. Med. Entomol. 53:1,10.1093/jme/tjv145,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F2 progeny of larvae collected from the campus of the Florida Medical Entomology Laboratory in Vero Beach Florida,TRUE,01/01/2016
NA,NA,longevity,mean duration of life stage,20.6,days,0.74,0.74,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,fecundity,mean lifetime eggs per individual,21.6,eggs individual-1,1.82,1.82,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,fecundity,mean lifetime eggs per individual,80.6,eggs individual-1,6.89,6.89,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,fecundity,mean lifetime eggs per individual,169.5,eggs individual-1,27.81,27.81,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,fecundity,mean lifetime eggs per individual,66.2,eggs individual-1,6.25,6.25,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,fecundity,mean lifetime eggs per individual,30.8,eggs individual-1,6.32,6.32,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brejo dos Santos Paraiba Brazil,field,NA,0,decimal,-6.38,-37.824722,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,0,days,NA,NA,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,for the egg phase the first 20 postures of each treatment were evaluated. interactor1temp is the water temperature that eggs were exposed to in incubators held at 22,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,5.7,days,0.24,0.24,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,for the egg phase the first 20 postures of each treatment were evaluated. interactor1temp is the water temperature that eggs were exposed to in incubators held at 22,TRUE,01/01/2006
NA,BUCK003,fecundity,mean number of second gonotrophic cycle progeny,10.35,individuals,1.47,1.47,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,250,mg,NA,NA,NA,NA,NA,Key West Florida USA,colony (F6),NA,0,decimal,24.57855475,-81.70039785,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval (L1 to pupa),NA,24,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Buckner et al. 2016. Larval temperature food effects on adult mosquito infection and vertical transmission of dengue-1 virus. J. Med. Entomol. 53:1,10.1093/jme/tjv145,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F6 progeny of larvae collected from Key West (Florida),TRUE,01/01/2016
NA,BUCK003,fecundity,mean number of second gonotrophic cycle progeny,8.93,individuals,1.78,1.78,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,250,mg,NA,NA,NA,NA,NA,Vero Beach Florida USA,field (F2),NA,0,decimal,27.58734199,-80.37339082,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,24,Celsius,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Buckner et al. 2016. Larval temperature food effects on adult mosquito infection and vertical transmission of dengue-1 virus. J. Med. Entomol. 53:1,10.1093/jme/tjv145,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F2 progeny of larvae collected from the campus of the Florida Medical Entomology Laboratory in Vero Beach Florida,TRUE,01/01/2016
NA,BUCK003,fecundity,mean number of second gonotrophic cycle progeny,9.23,individuals,1.52,1.52,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,500,mg,NA,NA,NA,NA,NA,Key West Florida USA,colony (F6),NA,0,decimal,24.57855475,-81.70039785,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval (L1 to pupa),NA,24,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Buckner et al. 2016. Larval temperature food effects on adult mosquito infection and vertical transmission of dengue-1 virus. J. Med. Entomol. 53:1,10.1093/jme/tjv145,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F6 progeny of larvae collected from Key West (Florida),TRUE,01/01/2016
NA,BUCK003,fecundity,mean number of second gonotrophic cycle progeny,10.09,individuals,1.62,1.62,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,500,mg,NA,NA,NA,NA,NA,Vero Beach Florida USA,field (F2),NA,0,decimal,27.58734199,-80.37339082,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,24,Celsius,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Buckner et al. 2016. Larval temperature food effects on adult mosquito infection and vertical transmission of dengue-1 virus. J. Med. Entomol. 53:1,10.1093/jme/tjv145,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F2 progeny of larvae collected from the campus of the Florida Medical Entomology Laboratory in Vero Beach Florida,TRUE,01/01/2016
NA,BUCK003,fecundity,mean number of second gonotrophic cycle progeny,7.46,individuals,1.52,1.52,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,250,mg,NA,NA,NA,NA,NA,Key West Florida USA,colony (F6),NA,0,decimal,24.57855475,-81.70039785,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval (L1 to pupa),NA,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Buckner et al. 2016. Larval temperature food effects on adult mosquito infection and vertical transmission of dengue-1 virus. J. Med. Entomol. 53:1,10.1093/jme/tjv145,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F6 progeny of larvae collected from Key West (Florida),TRUE,01/01/2016
NA,BUCK003,fecundity,mean number of second gonotrophic cycle progeny,4.57,individuals,0.61,0.61,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,250,mg,NA,NA,NA,NA,NA,Vero Beach Florida USA,field (F2),NA,0,decimal,27.58734199,-80.37339082,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Buckner et al. 2016. Larval temperature food effects on adult mosquito infection and vertical transmission of dengue-1 virus. J. Med. Entomol. 53:1,10.1093/jme/tjv145,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F2 progeny of larvae collected from the campus of the Florida Medical Entomology Laboratory in Vero Beach Florida,TRUE,01/01/2016
NA,BUCK003,fecundity,mean number of second gonotrophic cycle progeny,9.13,individuals,1.37,1.37,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,500,mg,NA,NA,NA,NA,NA,Key West Florida USA,colony (F6),NA,0,decimal,24.57855475,-81.70039785,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval (L1 to pupa),NA,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Buckner et al. 2016. Larval temperature food effects on adult mosquito infection and vertical transmission of dengue-1 virus. J. Med. Entomol. 53:1,10.1093/jme/tjv145,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F6 progeny of larvae collected from Key West (Florida),TRUE,01/01/2016
NA,BUCK003,fecundity,mean number of second gonotrophic cycle progeny,5.63,individuals,1.12,1.12,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,500,mg,NA,NA,NA,NA,NA,Vero Beach Florida USA,field (F2),NA,0,decimal,27.58734199,-80.37339082,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Buckner et al. 2016. Larval temperature food effects on adult mosquito infection and vertical transmission of dengue-1 virus. J. Med. Entomol. 53:1,10.1093/jme/tjv145,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F2 progeny of larvae collected from the campus of the Florida Medical Entomology Laboratory in Vero Beach Florida,TRUE,01/01/2016
NA,BUCK004,infection rate,percentage infected after exposure to DENV-1 (number of females infected with DENV-1 divided by the total number of females that imbibed an infectious bloodmeal),67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,250,mg,NA,NA,NA,NA,NA,Key West Florida USA,colony (F6),NA,0,decimal,24.57855475,-81.70039785,Aedes aegypti,NA,NA,NA,61,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval (L1 to pupa),NA,24,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Buckner et al. 2016. Larval temperature food effects on adult mosquito infection and vertical transmission of dengue-1 virus. J. Med. Entomol. 53:1,10.1093/jme/tjv145,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F6 progeny of larvae collected from Key West (Florida),TRUE,01/01/2016
NA,BUCK004,infection rate,percentage infected after exposure to DENV-1 (number of females infected with DENV-1 divided by the total number of females that imbibed an infectious bloodmeal),91,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,250,mg,NA,NA,NA,NA,NA,Vero Beach Florida USA,field (F2),NA,0,decimal,27.58734199,-80.37339082,Aedes albopictus,NA,NA,NA,103,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval (L1 to pupa),NA,24,Celsius,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Buckner et al. 2016. Larval temperature food effects on adult mosquito infection and vertical transmission of dengue-1 virus. J. Med. Entomol. 53:1,10.1093/jme/tjv145,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F2 progeny of larvae collected from the campus of the Florida Medical Entomology Laboratory in Vero Beach Florida,TRUE,01/01/2016
NA,BUCK004,infection rate,percentage infected after exposure to DENV-1 (number of females infected with DENV-1 divided by the total number of females that imbibed an infectious bloodmeal),76,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,500,mg,NA,NA,NA,NA,NA,Key West Florida USA,colony (F6),NA,0,decimal,24.57855475,-81.70039785,Aedes aegypti,NA,NA,NA,56,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval (L1 to pupa),NA,24,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Buckner et al. 2016. Larval temperature food effects on adult mosquito infection and vertical transmission of dengue-1 virus. J. Med. Entomol. 53:1,10.1093/jme/tjv145,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F6 progeny of larvae collected from Key West (Florida),TRUE,01/01/2016
NA,BUCK004,infection rate,percentage infected after exposure to DENV-1 (number of females infected with DENV-1 divided by the total number of females that imbibed an infectious bloodmeal),63,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,500,mg,NA,NA,NA,NA,NA,Vero Beach Florida USA,field (F2),NA,0,decimal,27.58734199,-80.37339082,Aedes albopictus,NA,NA,NA,99,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval (L1 to pupa),NA,24,Celsius,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Buckner et al. 2016. Larval temperature food effects on adult mosquito infection and vertical transmission of dengue-1 virus. J. Med. Entomol. 53:1,10.1093/jme/tjv145,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F2 progeny of larvae collected from the campus of the Florida Medical Entomology Laboratory in Vero Beach Florida,TRUE,01/01/2016
NA,BUCK004,infection rate,percentage infected after exposure to DENV-1 (number of females infected with DENV-1 divided by the total number of females that imbibed an infectious bloodmeal),75,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,250,mg,NA,NA,NA,NA,NA,Key West Florida USA,colony (F6),NA,0,decimal,24.57855475,-81.70039785,Aedes aegypti,NA,NA,NA,73,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval (L1 to pupa),NA,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Buckner et al. 2016. Larval temperature food effects on adult mosquito infection and vertical transmission of dengue-1 virus. J. Med. Entomol. 53:1,10.1093/jme/tjv145,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F6 progeny of larvae collected from Key West (Florida),TRUE,01/01/2016
NA,BUCK004,infection rate,percentage infected after exposure to DENV-1 (number of females infected with DENV-1 divided by the total number of females that imbibed an infectious bloodmeal),80,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,250,mg,NA,NA,NA,NA,NA,Vero Beach Florida USA,field (F2),NA,0,decimal,27.58734199,-80.37339082,Aedes albopictus,NA,NA,NA,126,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval (L1 to pupa),NA,30,Celsius,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Buckner et al. 2016. Larval temperature food effects on adult mosquito infection and vertical transmission of dengue-1 virus. J. Med. Entomol. 53:1,10.1093/jme/tjv145,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F2 progeny of larvae collected from the campus of the Florida Medical Entomology Laboratory in Vero Beach Florida,TRUE,01/01/2016
NA,BUCK004,infection rate,percentage infected after exposure to DENV-1 (number of females infected with DENV-1 divided by the total number of females that imbibed an infectious bloodmeal),71,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,500,mg,NA,NA,NA,NA,NA,Key West Florida USA,colony (F6),NA,0,decimal,24.57855475,-81.70039785,Aedes aegypti,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval (L1 to pupa),NA,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Buckner et al. 2016. Larval temperature food effects on adult mosquito infection and vertical transmission of dengue-1 virus. J. Med. Entomol. 53:1,10.1093/jme/tjv145,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F6 progeny of larvae collected from Key West (Florida),TRUE,01/01/2016
NA,BUCK004,infection rate,percentage infected after exposure to DENV-1 (number of females infected with DENV-1 divided by the total number of females that imbibed an infectious bloodmeal),77,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,500,mg,NA,NA,NA,NA,NA,Vero Beach Florida USA,field (F2),NA,0,decimal,27.58734199,-80.37339082,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval (L1 to pupa),NA,30,Celsius,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Buckner et al. 2016. Larval temperature food effects on adult mosquito infection and vertical transmission of dengue-1 virus. J. Med. Entomol. 53:1,10.1093/jme/tjv145,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F2 progeny of larvae collected from the campus of the Florida Medical Entomology Laboratory in Vero Beach Florida,TRUE,01/01/2016
NA,BUCK005,transmission potential,the number of P1 generation females that had DENV-1-infected progeny divided by the total number of DENV-1-infected P1 generation females,8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,250,mg,NA,NA,NA,NA,NA,Key West Florida USA,colony (F6),NA,0,decimal,24.57855475,-81.70039785,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval (L1 to pupa),NA,24,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Buckner et al. 2016. Larval temperature food effects on adult mosquito infection and vertical transmission of dengue-1 virus. J. Med. Entomol. 53:1,10.1093/jme/tjv145,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F6 progeny of larvae collected from Key West (Florida),TRUE,01/01/2016
NA,BUCK005,transmission potential,the number of P1 generation females that had DENV-1-infected progeny divided by the total number of DENV-1-infected P1 generation females,12,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,250,mg,NA,NA,NA,NA,NA,Vero Beach Florida USA,field (F2),NA,0,decimal,27.58734199,-80.37339082,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval (L1 to pupa),NA,24,Celsius,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Buckner et al. 2016. Larval temperature food effects on adult mosquito infection and vertical transmission of dengue-1 virus. J. Med. Entomol. 53:1,10.1093/jme/tjv145,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F2 progeny of larvae collected from the campus of the Florida Medical Entomology Laboratory in Vero Beach Florida,TRUE,01/01/2016
NA,BUCK005,transmission potential,the number of P1 generation females that had DENV-1-infected progeny divided by the total number of DENV-1-infected P1 generation females,10,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,500,mg,NA,NA,NA,NA,NA,Key West Florida USA,colony (F6),NA,0,decimal,24.57855475,-81.70039785,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval (L1 to pupa),NA,24,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Buckner et al. 2016. Larval temperature food effects on adult mosquito infection and vertical transmission of dengue-1 virus. J. Med. Entomol. 53:1,10.1093/jme/tjv145,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F6 progeny of larvae collected from Key West (Florida),TRUE,01/01/2016
NA,BUCK005,transmission potential,the number of P1 generation females that had DENV-1-infected progeny divided by the total number of DENV-1-infected P1 generation females,24,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,500,mg,NA,NA,NA,NA,NA,Vero Beach Florida USA,field (F2),NA,0,decimal,27.58734199,-80.37339082,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval (L1 to pupa),NA,24,Celsius,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Buckner et al. 2016. Larval temperature food effects on adult mosquito infection and vertical transmission of dengue-1 virus. J. Med. Entomol. 53:1,10.1093/jme/tjv145,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F2 progeny of larvae collected from the campus of the Florida Medical Entomology Laboratory in Vero Beach Florida,TRUE,01/01/2016
NA,BUCK005,transmission potential,the number of P1 generation females that had DENV-1-infected progeny divided by the total number of DENV-1-infected P1 generation females,16,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,250,mg,NA,NA,NA,NA,NA,Key West Florida USA,colony (F6),NA,0,decimal,24.57855475,-81.70039785,Aedes aegypti,NA,NA,NA,32,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval (L1 to pupa),NA,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Buckner et al. 2016. Larval temperature food effects on adult mosquito infection and vertical transmission of dengue-1 virus. J. Med. Entomol. 53:1,10.1093/jme/tjv145,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F6 progeny of larvae collected from Key West (Florida),TRUE,01/01/2016
NA,BUCK005,transmission potential,the number of P1 generation females that had DENV-1-infected progeny divided by the total number of DENV-1-infected P1 generation females,19,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,250,mg,NA,NA,NA,NA,NA,Vero Beach Florida USA,field (F2),NA,0,decimal,27.58734199,-80.37339082,Aedes albopictus,NA,NA,NA,41,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval (L1 to pupa),NA,30,Celsius,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Buckner et al. 2016. Larval temperature food effects on adult mosquito infection and vertical transmission of dengue-1 virus. J. Med. Entomol. 53:1,10.1093/jme/tjv145,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F2 progeny of larvae collected from the campus of the Florida Medical Entomology Laboratory in Vero Beach Florida,TRUE,01/01/2016
NA,BUCK005,transmission potential,the number of P1 generation females that had DENV-1-infected progeny divided by the total number of DENV-1-infected P1 generation females,7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,500,mg,NA,NA,NA,NA,NA,Key West Florida USA,colony (F6),NA,0,decimal,24.57855475,-81.70039785,Aedes aegypti,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval (L1 to pupa),NA,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Buckner et al. 2016. Larval temperature food effects on adult mosquito infection and vertical transmission of dengue-1 virus. J. Med. Entomol. 53:1,10.1093/jme/tjv145,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F6 progeny of larvae collected from Key West (Florida),TRUE,01/01/2016
NA,BUCK005,transmission potential,the number of P1 generation females that had DENV-1-infected progeny divided by the total number of DENV-1-infected P1 generation females,13,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,500,mg,NA,NA,NA,NA,NA,Vero Beach Florida USA,field (F2),NA,0,decimal,27.58734199,-80.37339082,Aedes albopictus,NA,NA,NA,23,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval (L1 to pupa),NA,30,Celsius,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Buckner et al. 2016. Larval temperature food effects on adult mosquito infection and vertical transmission of dengue-1 virus. J. Med. Entomol. 53:1,10.1093/jme/tjv145,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F2 progeny of larvae collected from the campus of the Florida Medical Entomology Laboratory in Vero Beach Florida,TRUE,01/01/2016
NA,BUCK006,infection titer,mean DENV-1 titer present,4.88,log10(PFUeq/mL),0.15,0.15,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,250,mg,NA,NA,NA,NA,NA,Key West Florida USA,colony (F6),NA,0,decimal,24.57855475,-81.70039785,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Buckner et al. 2016. Larval temperature food effects on adult mosquito infection and vertical transmission of dengue-1 virus. J. Med. Entomol. 53:1,10.1093/jme/tjv145,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F6 progeny of larvae collected from Key West (Florida),TRUE,01/01/2016
NA,BUCK006,infection titer,mean DENV-1 titer present,5.62,log10(PFUeq/mL),0.15,0.15,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,250,mg,NA,NA,NA,NA,NA,Vero Beach Florida USA,field (F2),NA,0,decimal,27.58734199,-80.37339082,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,24,Celsius,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Buckner et al. 2016. Larval temperature food effects on adult mosquito infection and vertical transmission of dengue-1 virus. J. Med. Entomol. 53:1,10.1093/jme/tjv145,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F2 progeny of larvae collected from the campus of the Florida Medical Entomology Laboratory in Vero Beach Florida,TRUE,01/01/2016
NA,BUCK006,infection titer,mean DENV-1 titer present,5.02,log10(PFUeq/mL),0.15,0.15,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,500,mg,NA,NA,NA,NA,NA,Key West Florida USA,colony (F6),NA,0,decimal,24.57855475,-81.70039785,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Buckner et al. 2016. Larval temperature food effects on adult mosquito infection and vertical transmission of dengue-1 virus. J. Med. Entomol. 53:1,10.1093/jme/tjv145,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F6 progeny of larvae collected from Key West (Florida),TRUE,01/01/2016
NA,BUCK006,infection titer,mean DENV-1 titer present,5.9,log10(PFUeq/mL),0.5,0.5,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,500,mg,NA,NA,NA,NA,NA,Vero Beach Florida USA,field (F2),NA,0,decimal,27.58734199,-80.37339082,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,24,Celsius,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Buckner et al. 2016. Larval temperature food effects on adult mosquito infection and vertical transmission of dengue-1 virus. J. Med. Entomol. 53:1,10.1093/jme/tjv145,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F2 progeny of larvae collected from the campus of the Florida Medical Entomology Laboratory in Vero Beach Florida,TRUE,01/01/2016
NA,BUCK006,infection titer,mean DENV-1 titer present,4.44,log10(PFUeq/mL),0.28,0.28,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,250,mg,NA,NA,NA,NA,NA,Key West Florida USA,colony (F6),NA,0,decimal,24.57855475,-81.70039785,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Buckner et al. 2016. Larval temperature food effects on adult mosquito infection and vertical transmission of dengue-1 virus. J. Med. Entomol. 53:1,10.1093/jme/tjv145,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F6 progeny of larvae collected from Key West (Florida),TRUE,01/01/2016
NA,BUCK006,infection titer,mean DENV-1 titer present,5.5,log10(PFUeq/mL),0.08,0.08,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,250,mg,NA,NA,NA,NA,NA,Vero Beach Florida USA,field (F2),NA,0,decimal,27.58734199,-80.37339082,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Buckner et al. 2016. Larval temperature food effects on adult mosquito infection and vertical transmission of dengue-1 virus. J. Med. Entomol. 53:1,10.1093/jme/tjv145,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F2 progeny of larvae collected from the campus of the Florida Medical Entomology Laboratory in Vero Beach Florida,TRUE,01/01/2016
NA,BUCK006,infection titer,mean DENV-1 titer present,4.52,log10(PFUeq/mL),0.36,0.36,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,500,mg,NA,NA,NA,NA,NA,Key West Florida USA,colony (F6),NA,0,decimal,24.57855475,-81.70039785,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Buckner et al. 2016. Larval temperature food effects on adult mosquito infection and vertical transmission of dengue-1 virus. J. Med. Entomol. 53:1,10.1093/jme/tjv145,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F6 progeny of larvae collected from Key West (Florida),TRUE,01/01/2016
NA,BUCK006,infection titer,mean DENV-1 titer present,5.48,log10(PFUeq/mL),0.22,0.22,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,500,mg,NA,NA,NA,NA,NA,Vero Beach Florida USA,field (F2),NA,0,decimal,27.58734199,-80.37339082,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Buckner et al. 2016. Larval temperature food effects on adult mosquito infection and vertical transmission of dengue-1 virus. J. Med. Entomol. 53:1,10.1093/jme/tjv145,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F2 progeny of larvae collected from the campus of the Florida Medical Entomology Laboratory in Vero Beach Florida,TRUE,01/01/2016
NA,SSA201,hatching ratio,percentage of eggs that hatched,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,12,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA201,hatching ratio,percentage of eggs that hatched,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,13,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA201,hatching ratio,percentage of eggs that hatched,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,14,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA201,hatching ratio,percentage of eggs that hatched,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,15,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA201,hatching ratio,percentage of eggs that hatched,11.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,23,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,16,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA201,hatching ratio,percentage of eggs that hatched,4,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA201,hatching ratio,percentage of eggs that hatched,4,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,18,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA201,hatching ratio,percentage of eggs that hatched,9.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,19,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA201,hatching ratio,percentage of eggs that hatched,10.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,21,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,20,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA201,hatching ratio,percentage of eggs that hatched,39,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,78,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA201,hatching ratio,percentage of eggs that hatched,51,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,102,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,23,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA201,hatching ratio,percentage of eggs that hatched,15,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA201,hatching ratio,percentage of eggs that hatched,22,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,44,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,25,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA201,hatching ratio,percentage of eggs that hatched,54,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,108,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA201,hatching ratio,percentage of eggs that hatched,24,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,27,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA201,hatching ratio,percentage of eggs that hatched,65.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,131,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,28,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA201,hatching ratio,percentage of eggs that hatched,30.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,61,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA201,hatching ratio,percentage of eggs that hatched,41,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,82,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA201,hatching ratio,percentage of eggs that hatched,32,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,64,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA201,hatching ratio,percentage of eggs that hatched,34,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,68,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA201,hatching ratio,percentage of eggs that hatched,17.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA201,hatching ratio,percentage of eggs that hatched,20.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,41,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,35,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA201,hatching ratio,percentage of eggs that hatched,13,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA201,hatching ratio,percentage of eggs that hatched,17,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,34,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,37,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA201,hatching ratio,percentage of eggs that hatched,4.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,38,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA201,hatching ratio,percentage of eggs that hatched,23,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,46,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,39,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA201,hatching ratio,percentage of eggs that hatched,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,40,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA202,hatching time,mean time to egg hatching,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,12,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,trait value set to zero because eggs did not hatch at this temperature. interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA202,hatching time,mean time to egg hatching,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,13,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,trait value set to zero because eggs did not hatch at this temperature. interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA202,hatching time,mean time to egg hatching,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,14,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,trait value set to zero because eggs did not hatch at this temperature. interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA202,hatching time,mean time to egg hatching,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,15,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,trait value set to zero because eggs did not hatch at this temperature. interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA202,hatching time,mean time to egg hatching,6.022,days,1.336,1.336,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,23,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,16,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA202,hatching time,mean time to egg hatching,6.188,days,1.252,1.252,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA202,hatching time,mean time to egg hatching,7.313,days,1.033,NA,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,18,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA202,hatching time,mean time to egg hatching,6.684,days,1.887,NA,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,19,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA202,hatching time,mean time to egg hatching,7.071,days,1.076,NA,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,21,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,20,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA202,hatching time,mean time to egg hatching,5.276,days,1.357,NA,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,78,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA202,hatching time,mean time to egg hatching,5.064,days,1.244,NA,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,102,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,23,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA202,hatching time,mean time to egg hatching,5.2,days,1.551,NA,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA202,hatching time,mean time to egg hatching,4.477,days,0.934,0.934,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,44,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,25,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA202,hatching time,mean time to egg hatching,3.954,days,0.924,0.924,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,108,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA202,hatching time,mean time to egg hatching,4.385,days,1.338,1.338,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,27,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA202,hatching time,mean time to egg hatching,3.882,days,1.611,NA,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,131,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,28,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA202,hatching time,mean time to egg hatching,3.5,days,1.208,NA,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,61,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA202,hatching time,mean time to egg hatching,3.628,days,1.717,NA,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,82,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA202,hatching time,mean time to egg hatching,4.039,days,1.51,NA,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,64,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA202,hatching time,mean time to egg hatching,3.537,days,1.163,NA,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,68,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA202,hatching time,mean time to egg hatching,3.757,days,1.4,NA,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA202,hatching time,mean time to egg hatching,6.012,days,1.679,1.679,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,41,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,35,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA202,hatching time,mean time to egg hatching,3.269,days,1.358,1.358,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA202,hatching time,mean time to egg hatching,4.471,days,0.945,0.945,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,34,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,37,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA202,hatching time,mean time to egg hatching,6.333,days,0.559,NA,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,38,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA202,hatching time,mean time to egg hatching,4.207,days,1.96,NA,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,46,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,39,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA202,hatching time,mean time to egg hatching,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,40,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,trait value set to zero because eggs did not hatch at this temperature. interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA203,hatching rate,mean eggs hatched per day,0,days-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,12,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,trait value set to zero because eggs did not hatch at this temperature. interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA203,hatching rate,mean eggs hatched per day,0,days-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,13,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,trait value set to zero because eggs did not hatch at this temperature. interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA203,hatching rate,mean eggs hatched per day,0,days-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,14,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,trait value set to zero because eggs did not hatch at this temperature. interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA203,hatching rate,mean eggs hatched per day,0,days-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,15,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,trait value set to zero because eggs did not hatch at this temperature. interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA203,hatching rate,mean eggs hatched per day,0.177,days-1,0.05,0.05,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,23,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,16,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA203,hatching rate,mean eggs hatched per day,0.168,days-1,0.037,0.037,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA203,hatching rate,mean eggs hatched per day,0.139,days-1,0.021,NA,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,18,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA203,hatching rate,mean eggs hatched per day,0.163,days-1,0.054,NA,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,19,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA203,hatching rate,mean eggs hatched per day,0.145,days-1,0.022,NA,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,21,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,20,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA203,hatching rate,mean eggs hatched per day,0.21,days-1,0.106,NA,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,78,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA203,hatching rate,mean eggs hatched per day,0.213,days-1,0.068,NA,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,102,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,23,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA203,hatching rate,mean eggs hatched per day,0.244,days-1,0.21,NA,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA203,hatching rate,mean eggs hatched per day,0.241,days-1,0.1,0.1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,44,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,25,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA203,hatching rate,mean eggs hatched per day,0.266,days-1,0.06,0.06,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,108,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA203,hatching rate,mean eggs hatched per day,0.27,days-1,0.17,0.17,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,27,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA203,hatching rate,mean eggs hatched per day,0.385,days-1,0.405,NA,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,131,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,28,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA203,hatching rate,mean eggs hatched per day,0.341,days-1,0.189,NA,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,61,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA203,hatching rate,mean eggs hatched per day,0.44,days-1,0.458,NA,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,82,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA203,hatching rate,mean eggs hatched per day,0.282,days-1,0.101,NA,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,64,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA203,hatching rate,mean eggs hatched per day,0.391,days-1,0.416,NA,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,68,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA203,hatching rate,mean eggs hatched per day,0.33,days-1,0.202,NA,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA203,hatching rate,mean eggs hatched per day,0.186,days-1,0.083,0.083,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,41,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,35,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA203,hatching rate,mean eggs hatched per day,0.403,days-1,0.272,0.272,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA203,hatching rate,mean eggs hatched per day,0.235,days-1,0.056,0.056,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,34,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,37,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA203,hatching rate,mean eggs hatched per day,0.159,days-1,0.014,NA,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,38,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA203,hatching rate,mean eggs hatched per day,0.355,days-1,0.286,NA,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,46,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,39,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA203,hatching rate,mean eggs hatched per day,0,days-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,40,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s2,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,trait value set to zero because eggs did not hatch at this temperature. interactor1number is the number of individuals that survived life stage from n=200 at the start of the experiment,TRUE,01/01/2023
NA,SSA204,survival,proportion surviving life stage,0,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupal,NA,12,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA204,survival,proportion surviving life stage,0,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupal,NA,13,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA204,survival,proportion surviving life stage,0,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupal,NA,14,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA204,survival,proportion surviving life stage,0.09,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupal,NA,15,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA204,survival,proportion surviving life stage,0.66,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,66,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupal,NA,16,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA204,survival,proportion surviving life stage,0.54,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,54,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupal,NA,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA204,survival,proportion surviving life stage,0.46,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,46,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupal,NA,18,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA204,survival,proportion surviving life stage,0.44,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,44,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupal,NA,19,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA204,survival,proportion surviving life stage,0.57,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,57,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupal,NA,20,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA204,survival,proportion surviving life stage,0.39,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,39,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupal,NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA204,survival,proportion surviving life stage,0.57,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,57,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupal,NA,23,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA204,survival,proportion surviving life stage,0.42,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,42,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupal,NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA204,survival,proportion surviving life stage,0.72,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,72,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupal,NA,25,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA204,survival,proportion surviving life stage,0.73,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,73,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupal,NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA204,survival,proportion surviving life stage,0.68,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,68,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupal,NA,27,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA204,survival,proportion surviving life stage,0.46,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,46,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupal,NA,28,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA204,survival,proportion surviving life stage,0.76,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,76,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupal,NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA204,survival,proportion surviving life stage,0.6,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupal,NA,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA204,survival,proportion surviving life stage,0.55,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,55,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupal,NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA204,survival,proportion surviving life stage,0.63,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,63,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupal,NA,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA204,survival,proportion surviving life stage,0.61,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,61,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupal,NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA204,survival,proportion surviving life stage,0.4,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupal,NA,35,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA204,survival,proportion surviving life stage,0.19,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupal,NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA204,survival,proportion surviving life stage,0.21,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,21,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupal,NA,37,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA204,survival,proportion surviving life stage,0.18,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupal,NA,38,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA204,survival,proportion surviving life stage,0.09,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupal,NA,39,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA204,survival,proportion surviving life stage,0.06,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupal,NA,40,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA205,survival,proportion surviving life stage,0,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,12,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA205,survival,proportion surviving life stage,0,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,13,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA205,survival,proportion surviving life stage,0,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,14,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA205,survival,proportion surviving life stage,0.04,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,15,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA205,survival,proportion surviving life stage,0.21,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,21,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,16,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA205,survival,proportion surviving life stage,0.38,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,38,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA205,survival,proportion surviving life stage,0.39,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,39,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,18,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA205,survival,proportion surviving life stage,0.37,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,37,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,19,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA205,survival,proportion surviving life stage,0.52,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,52,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,20,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA205,survival,proportion surviving life stage,0.36,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,36,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA205,survival,proportion surviving life stage,0.54,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,54,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,23,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA205,survival,proportion surviving life stage,0.34,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,34,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA205,survival,proportion surviving life stage,0.67,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,67,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,25,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA205,survival,proportion surviving life stage,0.69,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,69,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA205,survival,proportion surviving life stage,0.57,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,57,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,27,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA205,survival,proportion surviving life stage,0.39,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,39,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,28,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA205,survival,proportion surviving life stage,0.7,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,70,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA205,survival,proportion surviving life stage,0.51,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,51,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA205,survival,proportion surviving life stage,0.49,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,49,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA205,survival,proportion surviving life stage,0.54,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,54,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA205,survival,proportion surviving life stage,0.61,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,61,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA205,survival,proportion surviving life stage,0.35,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,35,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA205,survival,proportion surviving life stage,0.14,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA205,survival,proportion surviving life stage,0.17,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,37,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA205,survival,proportion surviving life stage,0.14,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,38,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA205,survival,proportion surviving life stage,0.07,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,39,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,SSA205,survival,proportion surviving life stage,0.02,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,40,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2023
NA,NA,development time,mean duration of life stage,11.32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,18,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,for the egg phase the first 20 postures of each treatment were evaluated,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,8.82,days,0.64,0.64,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,22,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,for the egg phase the first 20 postures of each treatment were evaluated,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,4.77,days,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,26,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,for the egg phase the first 20 postures of each treatment were evaluated,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,3.11,days,0.19,0.19,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,28,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,for the egg phase the first 20 postures of each treatment were evaluated,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,3.43,days,0.43,0.43,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,32,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,for the egg phase the first 20 postures of each treatment were evaluated,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,2.93,days,0.77,0.77,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,34,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,for the egg phase the first 20 postures of each treatment were evaluated,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,7.41,days,0.08,0.08,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,250,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,18,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=38,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,6.14,days,0.01,0.01,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,249,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,22,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=40,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,4.48,days,0.05,0.05,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,249,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=47,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,4.14,days,0.15,0.15,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,250,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,28,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=44,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,3.01,days,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,250,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,32,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=32,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,3,days,0.01,0.01,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,250,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,34,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=35,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,3.46,days,0.14,0.14,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,235,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,18,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=38,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,2.79,days,0.27,0.27,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,221,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,22,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=39,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,1.16,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,234,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,26,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=46,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,1.2,days,0.11,0.11,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,144,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,28,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=44,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,1.11,days,0.02,0.02,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,230,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,32,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=32,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,1.5,days,0.09,0.09,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,223,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,34,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=35,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,27.49,days,0.002,0.002,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,235,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,18,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,17.55,days,0.68,0.68,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,221,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,22,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,10.38,days,0.38,0.38,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,234,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,26,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,7.38,days,0.38,0.38,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,144,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,28,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,6.5,days,0.36,0.36,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,230,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,32,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,6.33,days,1.1,1.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,223,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,34,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,10.87,days,0.002,0.002,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,235,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,18,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,estimated from table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,8.93,days,0.68,0.68,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,221,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,estimated from table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,5.64,days,0.38,0.38,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,234,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,estimated from table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,5.34,days,0.38,0.38,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,144,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,28,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,estimated from table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,4.12,days,0.36,0.36,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,230,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,estimated from table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,4.5,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,223,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,estimated from table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,94,percent,1.2,1.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,235,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,18,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,88.66,percent,1.9,1.9,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,221,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,94,percent,1.2,1.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,234,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,57.66,percent,0.9,0.9,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,144,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,28,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,92.16,percent,1.7,1.7,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,230,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,89,percent,3.4,3.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,223,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,45.46,percent,8.56,8.56,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,18,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,69.66,percent,5.8,5.8,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,22,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,84.26,percent,4.42,4.42,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,26,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,90.39,percent,4.89,4.89,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,28,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,69.73,percent,6,6,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,32,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,43.12,percent,14.6,14.6,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,34,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,250,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,18,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,99.66,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,249,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,22,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,98.33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,246,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,250,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,28,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,99,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,248,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,32,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,99.66,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,249,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,34,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,93.33,percent,1.6,1.6,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,233,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,18,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,96.33,percent,0.6,0.6,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,22,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,97.61,percent,0.9,0.9,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,26,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,99,percent,0.6,0.6,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,248,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,28,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,97.33,percent,0.8,0.8,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,241,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,32,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,30/10/2009
NA,NA,survival,percentage surviving life stage,92.33,percent,1.6,1.6,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,230,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,34,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,30/10/2009
NA,SSA208,maximum longevity,longest measured adult lifespan,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,12,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA208,maximum longevity,longest measured adult lifespan,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,13,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA208,maximum longevity,longest measured adult lifespan,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,14,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA208,maximum longevity,longest measured adult lifespan,60,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,15,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA208,maximum longevity,longest measured adult lifespan,73,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,16,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA208,maximum longevity,longest measured adult lifespan,77,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA208,maximum longevity,longest measured adult lifespan,79,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA208,maximum longevity,longest measured adult lifespan,68,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,19,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA208,maximum longevity,longest measured adult lifespan,67,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA208,maximum longevity,longest measured adult lifespan,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA208,maximum longevity,longest measured adult lifespan,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,23,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA208,maximum longevity,longest measured adult lifespan,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA208,maximum longevity,longest measured adult lifespan,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA208,maximum longevity,longest measured adult lifespan,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA208,maximum longevity,longest measured adult lifespan,45,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA208,maximum longevity,longest measured adult lifespan,57,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA208,maximum longevity,longest measured adult lifespan,50,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA208,maximum longevity,longest measured adult lifespan,46,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA208,maximum longevity,longest measured adult lifespan,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA208,maximum longevity,longest measured adult lifespan,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA208,maximum longevity,longest measured adult lifespan,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA208,maximum longevity,longest measured adult lifespan,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,35,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA208,maximum longevity,longest measured adult lifespan,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA208,maximum longevity,longest measured adult lifespan,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,37,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA208,maximum longevity,longest measured adult lifespan,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,38,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA208,maximum longevity,longest measured adult lifespan,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,39,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA208,maximum longevity,longest measured adult lifespan,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,40,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA209,longevity,mean duration of life stage,12.44,days,2.53,2.53,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,12,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA209,longevity,mean duration of life stage,14.2,days,4.64,4.64,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,13,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA209,longevity,mean duration of life stage,16.9,days,4.84,4.84,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,14,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA209,longevity,mean duration of life stage,41.84,days,13.12,13.12,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,15,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA209,longevity,mean duration of life stage,50.72,days,15.21,15.21,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,16,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA209,longevity,mean duration of life stage,50.76,days,16.94,16.94,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA209,longevity,mean duration of life stage,60.6,days,14.31,14.31,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA209,longevity,mean duration of life stage,46.28,days,13.7,13.7,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,19,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA209,longevity,mean duration of life stage,46.86,days,13.59,13.59,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA209,longevity,mean duration of life stage,22.7,days,9.4,9.4,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA209,longevity,mean duration of life stage,21.28,days,8.33,8.33,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,23,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA209,longevity,mean duration of life stage,19.92,days,7.51,7.51,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA209,longevity,mean duration of life stage,24.34,days,8.3,8.3,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA209,longevity,mean duration of life stage,26.22,days,10.61,10.61,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA209,longevity,mean duration of life stage,33.42,days,10,10,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA209,longevity,mean duration of life stage,36.5,days,8.72,8.72,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA209,longevity,mean duration of life stage,33.6,days,9.08,9.08,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA209,longevity,mean duration of life stage,26.06,days,10.2,10.2,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA209,longevity,mean duration of life stage,17.24,days,5.07,5.07,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA209,longevity,mean duration of life stage,14.18,days,5.56,5.56,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA209,longevity,mean duration of life stage,11.84,days,3.93,3.93,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA209,longevity,mean duration of life stage,12.32,days,5.37,5.37,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,35,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA209,longevity,mean duration of life stage,10.26,days,4.9,4.9,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA209,longevity,mean duration of life stage,9.3,days,3.83,3.83,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,37,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA209,longevity,mean duration of life stage,8.6,days,4.19,4.19,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,38,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA209,longevity,mean duration of life stage,6.66,days,3.5,3.5,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,39,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA209,longevity,mean duration of life stage,4.32,days,3.22,3.22,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,40,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA210,mortality rate,mean daily mortality rate (inverse of longevity),0.085,days-1,0.022,0.022,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,12,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA210,mortality rate,mean daily mortality rate (inverse of longevity),0.085,days-1,0.052,0.052,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,13,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA210,mortality rate,mean daily mortality rate (inverse of longevity),0.065,days-1,0.023,0.023,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,14,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA210,mortality rate,mean daily mortality rate (inverse of longevity),0.028,days-1,0.016,0.016,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,15,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA210,mortality rate,mean daily mortality rate (inverse of longevity),0.024,days-1,0.016,0.016,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,16,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA210,mortality rate,mean daily mortality rate (inverse of longevity),0.025,days-1,0.02,0.02,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA210,mortality rate,mean daily mortality rate (inverse of longevity),0.019,days-1,0.012,0.012,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA210,mortality rate,mean daily mortality rate (inverse of longevity),0.025,days-1,0.015,0.015,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,19,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA210,mortality rate,mean daily mortality rate (inverse of longevity),0.025,days-1,0.014,0.014,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA210,mortality rate,mean daily mortality rate (inverse of longevity),0.054,days-1,0.028,0.028,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA210,mortality rate,mean daily mortality rate (inverse of longevity),0.06,days-1,0.047,0.047,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,23,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA210,mortality rate,mean daily mortality rate (inverse of longevity),0.063,days-1,0.044,0.044,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA210,mortality rate,mean daily mortality rate (inverse of longevity),0.047,days-1,0.021,0.021,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA210,mortality rate,mean daily mortality rate (inverse of longevity),0.05,days-1,0.038,0.038,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA210,mortality rate,mean daily mortality rate (inverse of longevity),0.037,days-1,0.025,0.025,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA210,mortality rate,mean daily mortality rate (inverse of longevity),0.029,days-1,0.009,0.009,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA210,mortality rate,mean daily mortality rate (inverse of longevity),0.033,days-1,0.015,0.015,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA210,mortality rate,mean daily mortality rate (inverse of longevity),0.046,days-1,0.024,0.024,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA210,mortality rate,mean daily mortality rate (inverse of longevity),0.064,days-1,0.022,0.022,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA210,mortality rate,mean daily mortality rate (inverse of longevity),0.085,days-1,0.048,0.048,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA210,mortality rate,mean daily mortality rate (inverse of longevity),0.095,days-1,0.036,0.036,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA210,mortality rate,mean daily mortality rate (inverse of longevity),0.134,days-1,0.187,0.187,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,35,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA210,mortality rate,mean daily mortality rate (inverse of longevity),0.165,days-1,0.22,0.22,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA210,mortality rate,mean daily mortality rate (inverse of longevity),0.155,days-1,0.159,0.159,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,37,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA210,mortality rate,mean daily mortality rate (inverse of longevity),0.22,days-1,0.278,0.278,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,38,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA210,mortality rate,mean daily mortality rate (inverse of longevity),0.25,days-1,0.253,0.253,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,39,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA210,mortality rate,mean daily mortality rate (inverse of longevity),0.407,days-1,0.32,0.32,sd,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,40,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA211,pre-oviposition period,first day after emergence that females laid eggs,100,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,12,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,trait value set to 100 because females did not lay eggs at this temperature,TRUE,01/01/2023
NA,SSA211,pre-oviposition period,first day after emergence that females laid eggs,100,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,13,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,trait value set to 100 because females did not lay eggs at this temperature,TRUE,01/01/2023
NA,SSA211,pre-oviposition period,first day after emergence that females laid eggs,100,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,14,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,trait value set to 100 because females did not lay eggs at this temperature,TRUE,01/01/2023
NA,SSA211,pre-oviposition period,first day after emergence that females laid eggs,100,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,15,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,trait value set to 100 because females did not lay eggs at this temperature,TRUE,01/01/2023
NA,SSA211,pre-oviposition period,first day after emergence that females laid eggs,100,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,16,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,trait value set to 100 because females did not lay eggs at this temperature,TRUE,01/01/2023
NA,SSA211,pre-oviposition period,first day after emergence that females laid eggs,100,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,trait value set to 100 because females did not lay eggs at this temperature,TRUE,01/01/2023
NA,SSA211,pre-oviposition period,first day after emergence that females laid eggs,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA211,pre-oviposition period,first day after emergence that females laid eggs,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,19,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA211,pre-oviposition period,first day after emergence that females laid eggs,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA211,pre-oviposition period,first day after emergence that females laid eggs,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA211,pre-oviposition period,first day after emergence that females laid eggs,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,23,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA211,pre-oviposition period,first day after emergence that females laid eggs,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA211,pre-oviposition period,first day after emergence that females laid eggs,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA211,pre-oviposition period,first day after emergence that females laid eggs,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA211,pre-oviposition period,first day after emergence that females laid eggs,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA211,pre-oviposition period,first day after emergence that females laid eggs,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA211,pre-oviposition period,first day after emergence that females laid eggs,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA211,pre-oviposition period,first day after emergence that females laid eggs,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA211,pre-oviposition period,first day after emergence that females laid eggs,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA211,pre-oviposition period,first day after emergence that females laid eggs,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA211,pre-oviposition period,first day after emergence that females laid eggs,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA211,pre-oviposition period,first day after emergence that females laid eggs,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,35,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA211,pre-oviposition period,first day after emergence that females laid eggs,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA211,pre-oviposition period,first day after emergence that females laid eggs,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,37,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA211,pre-oviposition period,first day after emergence that females laid eggs,100,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,38,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,trait value set to 100 because females did not lay eggs at this temperature,TRUE,01/01/2023
NA,SSA211,pre-oviposition period,first day after emergence that females laid eggs,100,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,39,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,trait value set to 100 because females did not lay eggs at this temperature,TRUE,01/01/2023
NA,SSA211,pre-oviposition period,first day after emergence that females laid eggs,100,days,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,40,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,trait value set to 100 because females did not lay eggs at this temperature,TRUE,01/01/2023
NA,SSA212,fecundity,total population-level number of eggs laid,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,12,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA212,fecundity,total population-level number of eggs laid,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,13,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA212,fecundity,total population-level number of eggs laid,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,14,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA212,fecundity,total population-level number of eggs laid,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,15,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA212,fecundity,total population-level number of eggs laid,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,16,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA212,fecundity,total population-level number of eggs laid,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA212,fecundity,total population-level number of eggs laid,1760,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA212,fecundity,total population-level number of eggs laid,2257,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,19,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA212,fecundity,total population-level number of eggs laid,1896,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA212,fecundity,total population-level number of eggs laid,2253,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA212,fecundity,total population-level number of eggs laid,3509,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,23,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA212,fecundity,total population-level number of eggs laid,3866,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA212,fecundity,total population-level number of eggs laid,9022,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA212,fecundity,total population-level number of eggs laid,7141,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA212,fecundity,total population-level number of eggs laid,5119,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA212,fecundity,total population-level number of eggs laid,15946,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA212,fecundity,total population-level number of eggs laid,12447,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA212,fecundity,total population-level number of eggs laid,6082,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA212,fecundity,total population-level number of eggs laid,2019,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA212,fecundity,total population-level number of eggs laid,1736,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA212,fecundity,total population-level number of eggs laid,982,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA212,fecundity,total population-level number of eggs laid,2420,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,35,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA212,fecundity,total population-level number of eggs laid,1103,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA212,fecundity,total population-level number of eggs laid,314,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,37,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA212,fecundity,total population-level number of eggs laid,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,38,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA212,fecundity,total population-level number of eggs laid,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,39,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA212,fecundity,total population-level number of eggs laid,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,40,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA213,fecundity rate,average number of eggs laid per female per day,0,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,12,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA213,fecundity rate,average number of eggs laid per female per day,0,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,13,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA213,fecundity rate,average number of eggs laid per female per day,0,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,14,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA213,fecundity rate,average number of eggs laid per female per day,0,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,15,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA213,fecundity rate,average number of eggs laid per female per day,0,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,16,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA213,fecundity rate,average number of eggs laid per female per day,0,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA213,fecundity rate,average number of eggs laid per female per day,0.58,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA213,fecundity rate,average number of eggs laid per female per day,0.98,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,19,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA213,fecundity rate,average number of eggs laid per female per day,0.81,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA213,fecundity rate,average number of eggs laid per female per day,1.99,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA213,fecundity rate,average number of eggs laid per female per day,3.3,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,23,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA213,fecundity rate,average number of eggs laid per female per day,3.88,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA213,fecundity rate,average number of eggs laid per female per day,7.41,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA213,fecundity rate,average number of eggs laid per female per day,5.45,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA213,fecundity rate,average number of eggs laid per female per day,3.06,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA213,fecundity rate,average number of eggs laid per female per day,8.74,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA213,fecundity rate,average number of eggs laid per female per day,7.41,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA213,fecundity rate,average number of eggs laid per female per day,4.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA213,fecundity rate,average number of eggs laid per female per day,2.34,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA213,fecundity rate,average number of eggs laid per female per day,2.45,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA213,fecundity rate,average number of eggs laid per female per day,1.66,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA213,fecundity rate,average number of eggs laid per female per day,3.93,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,35,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA213,fecundity rate,average number of eggs laid per female per day,2.15,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA213,fecundity rate,average number of eggs laid per female per day,0.68,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,37,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA213,fecundity rate,average number of eggs laid per female per day,0,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,38,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA213,fecundity rate,average number of eggs laid per female per day,0,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,39,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA213,fecundity rate,average number of eggs laid per female per day,0,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,61250,cm cubed,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,40,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,53.8,days,3.19,3.19,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,18,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,longevity,mean duration of life stage,29.8,days,1.4,1.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,longevity,mean duration of life stage,42.8,days,1.2,1.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,longevity,mean duration of life stage,27.8,days,1.6,1.6,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,CAL002,survival,percent surviving life stage,66,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,132,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Calado and Navarro-Silva. 2002. Avaliacao da influencia da temperatura sobre o desenvolvimento de Aedes albopictus  Revista de Saude Publica. 36:2,10.1590/S0034-89102002000200009,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2002
NA,CAL002,survival,percent surviving life stage,82,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,164,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Calado and Navarro-Silva. 2002. Avaliacao da influencia da temperatura sobre o desenvolvimento de Aedes albopictus  Revista de Saude Publica. 36:2,10.1590/S0034-89102002000200009,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2002
NA,CAL002,survival,percent surviving life stage,73.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,147,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Calado and Navarro-Silva. 2002. Avaliacao da influencia da temperatura sobre o desenvolvimento de Aedes albopictus  Revista de Saude Publica. 36:2,10.1590/S0034-89102002000200009,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2002
NA,CAL002,survival,percent surviving life stage,80,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,160,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Calado and Navarro-Silva. 2002. Avaliacao da influencia da temperatura sobre o desenvolvimento de Aedes albopictus  Revista de Saude Publica. 36:2,10.1590/S0034-89102002000200009,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2002
NA,NA,longevity,mean duration of life stage,14.6,days,1.4,1.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,longevity,mean duration of life stage,56.2,days,2.38,2.38,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,longevity,mean duration of life stage,36.5,days,1.64,1.64,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,longevity,mean duration of life stage,46.1,days,1.74,1.74,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,longevity,mean duration of life stage,31.7,days,1.6,1.6,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,longevity,mean duration of life stage,18.9,days,1.53,1.53,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,fecundity,mean lifetime eggs per individual,20.5,eggs individual-1,2.66,2.66,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,fecundity,mean lifetime eggs per individual,66.1,eggs individual-1,8.58,8.58,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,fecundity,mean lifetime eggs per individual,260.4,eggs individual-1,28.12,28.12,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,fecundity,mean lifetime eggs per individual,132,eggs individual-1,7.28,7.28,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,fecundity,mean lifetime eggs per individual,12.6,eggs individual-1,1.06,1.06,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,longevity,mean duration of life stage,25.78,days,2.1,2.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,18,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,30/10/2009
NA,NA,longevity,mean duration of life stage,23.7,days,3.4,3.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,22,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,30/10/2009
NA,NA,longevity,mean duration of life stage,47.08,days,1.9,1.9,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,26,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,11.15,days,0.7,0.7,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,18,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,for the egg phase the first 20 postures of each treatment were evaluated,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,8.45,days,0.64,0.64,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,22,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,for the egg phase the first 20 postures of each treatment were evaluated,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,5.52,days,0.52,0.52,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,26,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,for the egg phase the first 20 postures of each treatment were evaluated,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,3.43,days,0.21,0.21,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,28,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,for the egg phase the first 20 postures of each treatment were evaluated,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,4.51,days,0.39,0.39,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,32,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,for the egg phase the first 20 postures of each treatment were evaluated,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,5.63,days,0.84,0.84,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,34,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,for the egg phase the first 20 postures of each treatment were evaluated,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,14.12,days,1.4,1.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,250,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,18,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=23,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,7.65,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,249,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,22,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=35,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,5.27,days,0.04,0.04,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,246,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=42,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,3.93,days,0.04,0.04,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,250,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,28,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=45,TRUE,30/10/2009
NA,PHX60,longevity,mean duration of life stage,19.45,days,11.11,11.11,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Calado and Navarro-Silva. 2002. Influencia da temperatura sobre a longevidade fecundidade eatividade hematofagica de Aedes (Stegomyia) albopictus Skuse 1894 (Diptera: Culicidae) sob condicoes de laboratorio. Revista Brasileira de Entomologia 46: 93-98.,10.1590/S0085-56262002000100011,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,PHX60,longevity,mean duration of life stage,13.6,days,8.99,8.99,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,79,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Calado and Navarro-Silva. 2002. Influencia da temperatura sobre a longevidade fecundidade eatividade hematofagica de Aedes (Stegomyia) albopictus Skuse 1894 (Diptera: Culicidae) sob condicoes de laboratorio. Revista Brasileira de Entomologia 46: 93-98.,10.1590/S0085-56262002000100011,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,PHX60,longevity,mean duration of life stage,59.35,days,27.44,27.44,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Calado and Navarro-Silva. 2002. Influencia da temperatura sobre a longevidade fecundidade eatividade hematofagica de Aedes (Stegomyia) albopictus Skuse 1894 (Diptera: Culicidae) sob condicoes de laboratorio. Revista Brasileira de Entomologia 46: 93-98.,10.1590/S0085-56262002000100011,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,PHX60,longevity,mean duration of life stage,38.29,days,21.65,21.65,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,79,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Calado and Navarro-Silva. 2002. Influencia da temperatura sobre a longevidade fecundidade eatividade hematofagica de Aedes (Stegomyia) albopictus Skuse 1894 (Diptera: Culicidae) sob condicoes de laboratorio. Revista Brasileira de Entomologia 46: 93-98.,10.1590/S0085-56262002000100011,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,PHX60,longevity,mean duration of life stage,61.55,days,22.57,22.57,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Calado and Navarro-Silva. 2002. Influencia da temperatura sobre a longevidade fecundidade eatividade hematofagica de Aedes (Stegomyia) albopictus Skuse 1894 (Diptera: Culicidae) sob condicoes de laboratorio. Revista Brasileira de Entomologia 46: 93-98.,10.1590/S0085-56262002000100011,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,PHX60,longevity,mean duration of life stage,42.32,days,19.87,19.87,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,79,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Calado and Navarro-Silva. 2002. Influencia da temperatura sobre a longevidade fecundidade eatividade hematofagica de Aedes (Stegomyia) albopictus Skuse 1894 (Diptera: Culicidae) sob condicoes de laboratorio. Revista Brasileira de Entomologia 46: 93-98.,10.1590/S0085-56262002000100011,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,PHX60,longevity,mean duration of life stage,40.72,days,21.8,21.8,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Calado and Navarro-Silva. 2002. Influencia da temperatura sobre a longevidade fecundidade eatividade hematofagica de Aedes (Stegomyia) albopictus Skuse 1894 (Diptera: Culicidae) sob condicoes de laboratorio. Revista Brasileira de Entomologia 46: 93-98.,10.1590/S0085-56262002000100011,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,PHX60,longevity,mean duration of life stage,21.49,days,20.11,20.11,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,79,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Calado and Navarro-Silva. 2002. Influencia da temperatura sobre a longevidade fecundidade eatividade hematofagica de Aedes (Stegomyia) albopictus Skuse 1894 (Diptera: Culicidae) sob condicoes de laboratorio. Revista Brasileira de Entomologia 46: 93-98.,10.1590/S0085-56262002000100011,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,PHX601,blood feeding frequency,mean lifetime blood meals individual-1,1.66,blood meals individual-1,0.81,0.81,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Calado and Navarro-Silva. 2002. Influencia da temperatura sobre a longevidade fecundidade eatividade hematofagica de Aedes (Stegomyia) albopictus Skuse 1894 (Diptera: Culicidae) sob condicoes de laboratorio. Revista Brasileira de Entomologia 46: 93-98.,10.1590/S0085-56262002000100011,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,PHX601,blood feeding frequency,mean lifetime blood meals individual-1,3.23,blood meals individual-1,2.55,2.55,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,38,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Calado and Navarro-Silva. 2002. Influencia da temperatura sobre a longevidade fecundidade eatividade hematofagica de Aedes (Stegomyia) albopictus Skuse 1894 (Diptera: Culicidae) sob condicoes de laboratorio. Revista Brasileira de Entomologia 46: 93-98.,10.1590/S0085-56262002000100011,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,PHX601,blood feeding frequency,mean lifetime blood meals individual-1,8.32,blood meals individual-1,5.33,5.33,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Calado and Navarro-Silva. 2002. Influencia da temperatura sobre a longevidade fecundidade eatividade hematofagica de Aedes (Stegomyia) albopictus Skuse 1894 (Diptera: Culicidae) sob condicoes de laboratorio. Revista Brasileira de Entomologia 46: 93-98.,10.1590/S0085-56262002000100011,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,PHX601,blood feeding frequency,mean lifetime blood meals individual-1,6.57,blood meals individual-1,4.43,4.43,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,37,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Calado and Navarro-Silva. 2002. Influencia da temperatura sobre a longevidade fecundidade eatividade hematofagica de Aedes (Stegomyia) albopictus Skuse 1894 (Diptera: Culicidae) sob condicoes de laboratorio. Revista Brasileira de Entomologia 46: 93-98.,10.1590/S0085-56262002000100011,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,PHX602,fecundity,mean lifetime offspring,1,eggs individual-1,0,0,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Calado and Navarro-Silva. 2002. Influencia da temperatura sobre a longevidade fecundidade eatividade hematofagica de Aedes (Stegomyia) albopictus Skuse 1894 (Diptera: Culicidae) sob condicoes de laboratorio. Revista Brasileira de Entomologia 46: 93-98.,10.1590/S0085-56262002000100011,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,PHX602,fecundity,mean lifetime offspring,73.91,eggs individual-1,55.72,55.72,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,38,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Calado and Navarro-Silva. 2002. Influencia da temperatura sobre a longevidade fecundidade eatividade hematofagica de Aedes (Stegomyia) albopictus Skuse 1894 (Diptera: Culicidae) sob condicoes de laboratorio. Revista Brasileira de Entomologia 46: 93-98.,10.1590/S0085-56262002000100011,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,PHX602,fecundity,mean lifetime offspring,269.87,eggs individual-1,197.84,197.84,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Calado and Navarro-Silva. 2002. Influencia da temperatura sobre a longevidade fecundidade eatividade hematofagica de Aedes (Stegomyia) albopictus Skuse 1894 (Diptera: Culicidae) sob condicoes de laboratorio. Revista Brasileira de Entomologia 46: 93-98.,10.1590/S0085-56262002000100011,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,PHX602,fecundity,mean lifetime offspring,183.69,eggs individual-1,135.15,135.15,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,37,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Calado and Navarro-Silva. 2002. Influencia da temperatura sobre a longevidade fecundidade eatividade hematofagica de Aedes (Stegomyia) albopictus Skuse 1894 (Diptera: Culicidae) sob condicoes de laboratorio. Revista Brasileira de Entomologia 46: 93-98.,10.1590/S0085-56262002000100011,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,PHX603,fecundity rate,mean eggs individual-1 day-1,0,eggs individual-1,0,0,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Calado and Navarro-Silva. 2002. Influencia da temperatura sobre a longevidade fecundidade eatividade hematofagica de Aedes (Stegomyia) albopictus Skuse 1894 (Diptera: Culicidae) sob condicoes de laboratorio. Revista Brasileira de Entomologia 46: 93-98.,10.1590/S0085-56262002000100011,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,PHX603,fecundity rate,mean eggs individual-1 day-1,1.3,eggs individual-1,0.99,0.99,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Calado and Navarro-Silva. 2002. Influencia da temperatura sobre a longevidade fecundidade eatividade hematofagica de Aedes (Stegomyia) albopictus Skuse 1894 (Diptera: Culicidae) sob condicoes de laboratorio. Revista Brasileira de Entomologia 46: 93-98.,10.1590/S0085-56262002000100011,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,PHX603,fecundity rate,mean eggs individual-1 day-1,4.2,eggs individual-1,2.51,2.51,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Calado and Navarro-Silva. 2002. Influencia da temperatura sobre a longevidade fecundidade eatividade hematofagica de Aedes (Stegomyia) albopictus Skuse 1894 (Diptera: Culicidae) sob condicoes de laboratorio. Revista Brasileira de Entomologia 46: 93-98.,10.1590/S0085-56262002000100011,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,PHX603,fecundity rate,mean eggs individual-1 day-1,3.73,eggs individual-1,2.06,2.06,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,33,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Calado and Navarro-Silva. 2002. Influencia da temperatura sobre a longevidade fecundidade eatividade hematofagica de Aedes (Stegomyia) albopictus Skuse 1894 (Diptera: Culicidae) sob condicoes de laboratorio. Revista Brasileira de Entomologia 46: 93-98.,10.1590/S0085-56262002000100011,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,3.59,days,0.03,0.03,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,248,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,32,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=35,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,3.52,days,0.09,0.09,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,249,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,34,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=22,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,5.61,days,0.25,0.25,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,233,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,18,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=23,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,3.3,days,0.03,0.03,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,22,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=34,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,1.91,days,0.07,0.07,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,26,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=41,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,1.8,days,0.03,0.03,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,248,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,28,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=45,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,1.6,days,0.04,0.04,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,241,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,32,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=34,TRUE,30/10/2009
NA,NA,development time,mean duration of life stage,1.35,days,0.06,0.06,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,230,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,34,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=21,TRUE,30/10/2009
NA,BRI001,development time,median duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,0 = low density (0.5 larvae per ml) 1 = high density (more than 3 larvae per ml),0,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,12,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI001,development time,median duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,0 = low density (0.5 larvae per ml) 1 = high density (more than 3 larvae per ml),1,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,12,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,JOE029,survival,percent surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,hatching-to-pupal,NA,12,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1B,Carrington et al. 2013. Effects of Fluctuating Daily Temperatures at Critical Thermal Extremes on Aedes aegypti Life-History Traits. PLoS ONE 8(3): e58824,10.1371/journal.pone.0058824,NA,NA,Joe Harrison,joeh24@vt.edu,trait value set to zero because complete mortality occurred at this temperature. interactor1number is an estimate of the number of individuals that survived interactor1stage from an initial number of around 330 (20 individuals per cup with 13 to 20 cups per temperature),TRUE,01/01/2013
NA,JOE029,survival,percent surviving life stage,65.84,percent,3.31,3.31,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,217,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,hatching-to-pupal,NA,16,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1B,Carrington et al. 2013. Effects of Fluctuating Daily Temperatures at Critical Thermal Extremes on Aedes aegypti Life-History Traits. PLoS ONE 8(3): e58824,10.1371/journal.pone.0058824,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is an estimate of the number of individuals that survived interactor1stage from an initial number of around 330 (20 individuals per cup with 13 to 20 cups per temperature),TRUE,01/01/2013
NA,JOE029,survival,percent surviving life stage,88.71,percent,1.65,1.65,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,293,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,hatching-to-pupal,NA,20,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1B,Carrington et al. 2013. Effects of Fluctuating Daily Temperatures at Critical Thermal Extremes on Aedes aegypti Life-History Traits. PLoS ONE 8(3): e58824,10.1371/journal.pone.0058824,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is an estimate of the number of individuals that survived interactor1stage from an initial number of around 330 (20 individuals per cup with 13 to 20 cups per temperature),TRUE,01/01/2013
NA,JOE029,survival,percent surviving life stage,90.63,percent,1.38,1.38,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,299,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,hatching-to-pupal,NA,26,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1B,Carrington et al. 2013. Effects of Fluctuating Daily Temperatures at Critical Thermal Extremes on Aedes aegypti Life-History Traits. PLoS ONE 8(3): e58824,10.1371/journal.pone.0058824,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is an estimate of the number of individuals that survived interactor1stage from an initial number of around 330 (20 individuals per cup with 13 to 20 cups per temperature),TRUE,01/01/2013
NA,JOE029,survival,percent surviving life stage,88.71,percent,2.75,2.75,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,293,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,hatching-to-pupal,NA,30,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1B,Carrington et al. 2013. Effects of Fluctuating Daily Temperatures at Critical Thermal Extremes on Aedes aegypti Life-History Traits. PLoS ONE 8(3): e58824,10.1371/journal.pone.0058824,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is an estimate of the number of individuals that survived interactor1stage from an initial number of around 330 (20 individuals per cup with 13 to 20 cups per temperature),TRUE,01/01/2013
NA,JOE029,survival,percent surviving life stage,84.02,percent,2.75,2.75,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,277,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,hatching-to-pupal,NA,35,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1B,Carrington et al. 2013. Effects of Fluctuating Daily Temperatures at Critical Thermal Extremes on Aedes aegypti Life-History Traits. PLoS ONE 8(3): e58824,10.1371/journal.pone.0058824,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is an estimate of the number of individuals that survived interactor1stage from an initial number of around 330 (20 individuals per cup with 13 to 20 cups per temperature),TRUE,01/01/2013
NA,JOE029,survival,percent surviving life stage,80.72,percent,2.48,2.48,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,hatching-to-pupal,NA,37,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1B,Carrington et al. 2013. Effects of Fluctuating Daily Temperatures at Critical Thermal Extremes on Aedes aegypti Life-History Traits. PLoS ONE 8(3): e58824,10.1371/journal.pone.0058824,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is an estimate of the number of individuals that survived interactor1stage from an initial number of around 330 (20 individuals per cup with 13 to 20 cups per temperature),TRUE,01/01/2013
NA,JOE029,survival,percent surviving life stage,63.64,percent,2.75,2.75,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,210,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,hatching-to-pupal,NA,38,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1B,Carrington et al. 2013. Effects of Fluctuating Daily Temperatures at Critical Thermal Extremes on Aedes aegypti Life-History Traits. PLoS ONE 8(3): e58824,10.1371/journal.pone.0058824,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is an estimate of the number of individuals that survived interactor1stage from an initial number of around 330 (20 individuals per cup with 13 to 20 cups per temperature),TRUE,01/01/2013
NA,JOE029,survival,percent surviving life stage,0.83,percent,0.28,0.28,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,hatching-to-pupal,NA,39,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1B,Carrington et al. 2013. Effects of Fluctuating Daily Temperatures at Critical Thermal Extremes on Aedes aegypti Life-History Traits. PLoS ONE 8(3): e58824,10.1371/journal.pone.0058824,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is an estimate of the number of individuals that survived interactor1stage from an initial number of around 330 (20 individuals per cup with 13 to 20 cups per temperature),TRUE,01/01/2013
NA,JOE029,survival,percent surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,hatching-to-pupal,NA,40,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1B,Carrington et al. 2013. Effects of Fluctuating Daily Temperatures at Critical Thermal Extremes on Aedes aegypti Life-History Traits. PLoS ONE 8(3): e58824,10.1371/journal.pone.0058824,NA,NA,Joe Harrison,joeh24@vt.edu,trait value set to zero because complete mortality occurred at this temperature. interactor1number is an estimate of the number of individuals that survived interactor1stage from an initial number of around 330 (20 individuals per cup with 13 to 20 cups per temperature),TRUE,01/01/2013
NA,BRI001,development time,median duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,0 = low density (0.5 larvae per ml) 1 = high density (more than 3 larvae per ml),0,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,17,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI001,development time,median duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,0 = low density (0.5 larvae per ml) 1 = high density (more than 3 larvae per ml),1,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,17,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI001,development time,median duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,0 = low density (0.5 larvae per ml) 1 = high density (more than 3 larvae per ml),0,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI001,development time,median duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,0 = low density (0.5 larvae per ml) 1 = high density (more than 3 larvae per ml),1,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI001,development time,median duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,0 = low density (0.5 larvae per ml) 1 = high density (more than 3 larvae per ml),0,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI001,development time,median duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,0 = low density (0.5 larvae per ml) 1 = high density (more than 3 larvae per ml),1,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,JOE032,survival,mean percentage surviving life stage at a constant temperature of 35 degrees Celsius,44.67,percent,4.44,4.44,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,hatching-to-pupal,NA,35,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3C,Carrington et al. 2013. Effects of Fluctuating Daily Temperatures at Critical Thermal Extremes on Aedes aegypti Life-History Traits. PLoS ONE 8(3): e58824,10.1371/journal.pone.0058824,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE032,survival,mean percentage surviving life stage at a constant temperature of 35 degrees Celsius,60.22,percent,4.44,4.44,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,temperature fluctuations,small diurnal temperature temperature fluctuations of secondstressorvalue around a mean temperature of 35 degrees Celsius,7.6,degrees,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,hatching-to-pupal,NA,35,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3C,Carrington et al. 2013. Effects of Fluctuating Daily Temperatures at Critical Thermal Extremes on Aedes aegypti Life-History Traits. PLoS ONE 8(3): e58824,10.1371/journal.pone.0058824,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE032,survival,mean percentage surviving life stage at a constant temperature of 35 degrees Celsius,23.33,percent,3.11,3.11,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,temperature fluctuations,large diurnal temperature temperature fluctuations of secondstressorvalue around a mean temperature of 35 degrees Celsius,18.6,degrees,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,hatching-to-pupal,NA,35,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3C,Carrington et al. 2013. Effects of Fluctuating Daily Temperatures at Critical Thermal Extremes on Aedes aegypti Life-History Traits. PLoS ONE 8(3): e58824,10.1371/journal.pone.0058824,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE033,survival,mean percentage surviving life stage at a constant temperature of 35 degrees Celsius,55.21,percent,4.66,4.66,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,hatching-to-pupal,NA,16,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3D,Carrington et al. 2013. Effects of Fluctuating Daily Temperatures at Critical Thermal Extremes on Aedes aegypti Life-History Traits. PLoS ONE 8(3): e58824,10.1371/journal.pone.0058824,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE033,survival,mean percentage surviving life stage at a constant temperature of 35 degrees Celsius,55.88,percent,3.99,3.99,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,temperature fluctuations,small diurnal temperature temperature fluctuations of secondstressorvalue around a mean temperature of 35 degrees Celsius,7.6,degrees,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,hatching-to-pupal,NA,16,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3D,Carrington et al. 2013. Effects of Fluctuating Daily Temperatures at Critical Thermal Extremes on Aedes aegypti Life-History Traits. PLoS ONE 8(3): e58824,10.1371/journal.pone.0058824,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE033,survival,mean percentage surviving life stage at a constant temperature of 35 degrees Celsius,61.86,percent,3.22,3.22,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,temperature fluctuations,large diurnal temperature temperature fluctuations of secondstressorvalue around a mean temperature of 35 degrees Celsius,18.6,degrees,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,hatching-to-pupal,NA,16,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3D,Carrington et al. 2013. Effects of Fluctuating Daily Temperatures at Critical Thermal Extremes on Aedes aegypti Life-History Traits. PLoS ONE 8(3): e58824,10.1371/journal.pone.0058824,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE035,pre-bloodmeal period,mean number of days until first taking blood meal from human,4.02,days,0.19,0.19,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5A,Carrington et al. 2013. Effects of Fluctuating Daily Temperatures at Critical Thermal Extremes on Aedes aegypti Life-History Traits. PLoS ONE 8(3): e58824,10.1371/journal.pone.0058824,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is assumed to have been n=98 per treatment but this is not clearly stated in the paper.,TRUE,01/01/2013
NA,JOE035,pre-bloodmeal period,mean number of days until first taking blood meal from human,2.47,days,0.15,0.15,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,20,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5A,Carrington et al. 2013. Effects of Fluctuating Daily Temperatures at Critical Thermal Extremes on Aedes aegypti Life-History Traits. PLoS ONE 8(3): e58824,10.1371/journal.pone.0058824,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is assumed to have been n=98 per treatment but this is not clearly stated in the paper.,TRUE,01/01/2013
NA,JOE035,pre-bloodmeal period,mean number of days until first taking blood meal from human,1.2,days,0.14,0.14,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5A,Carrington et al. 2013. Effects of Fluctuating Daily Temperatures at Critical Thermal Extremes on Aedes aegypti Life-History Traits. PLoS ONE 8(3): e58824,10.1371/journal.pone.0058824,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is assumed to have been n=98 per treatment but this is not clearly stated in the paper.,TRUE,01/01/2013
NA,JOE035,pre-bloodmeal period,mean number of days until first taking blood meal from human,1.34,days,0.14,0.14,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5A,Carrington et al. 2013. Effects of Fluctuating Daily Temperatures at Critical Thermal Extremes on Aedes aegypti Life-History Traits. PLoS ONE 8(3): e58824,10.1371/journal.pone.0058824,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is assumed to have been n=98 per treatment but this is not clearly stated in the paper.,TRUE,01/01/2013
NA,JOE035,pre-bloodmeal period,mean number of days until first taking blood meal from human,1.69,days,0.11,0.11,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5A,Carrington et al. 2013. Effects of Fluctuating Daily Temperatures at Critical Thermal Extremes on Aedes aegypti Life-History Traits. PLoS ONE 8(3): e58824,10.1371/journal.pone.0058824,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is assumed to have been n=98 per treatment but this is not clearly stated in the paper.,TRUE,01/01/2013
NA,JOE035,pre-bloodmeal period,mean number of days until first taking blood meal from human,2.02,days,0.29,0.29,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,37,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5A,Carrington et al. 2013. Effects of Fluctuating Daily Temperatures at Critical Thermal Extremes on Aedes aegypti Life-History Traits. PLoS ONE 8(3): e58824,10.1371/journal.pone.0058824,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is assumed to have been n=98 per treatment but this is not clearly stated in the paper.,TRUE,01/01/2013
NA,JOE036,gonotrophic cycle,mean period from the first blood meal to the time the first eggs were laid,0,days,0,0,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5B,Carrington et al. 2013. Effects of Fluctuating Daily Temperatures at Critical Thermal Extremes on Aedes aegypti Life-History Traits. PLoS ONE 8(3): e58824,10.1371/journal.pone.0058824,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is assumed to have been n=98 per treatment but this is not clearly stated in the paper. trait value set to zero because reproduction did not occur at this temperature,TRUE,01/01/2013
NA,JOE036,gonotrophic cycle,mean period from the first blood meal to the time the first eggs were laid,7.58,days,0.57,0.57,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,20,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5B,Carrington et al. 2013. Effects of Fluctuating Daily Temperatures at Critical Thermal Extremes on Aedes aegypti Life-History Traits. PLoS ONE 8(3): e58824,10.1371/journal.pone.0058824,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is assumed to have been n=98 per treatment but this is not clearly stated in the paper.,TRUE,01/01/2013
NA,JOE036,gonotrophic cycle,mean period from the first blood meal to the time the first eggs were laid,3.02,days,0,0,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5B,Carrington et al. 2013. Effects of Fluctuating Daily Temperatures at Critical Thermal Extremes on Aedes aegypti Life-History Traits. PLoS ONE 8(3): e58824,10.1371/journal.pone.0058824,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is assumed to have been n=98 per treatment but this is not clearly stated in the paper.,TRUE,01/01/2013
NA,JOE036,gonotrophic cycle,mean period from the first blood meal to the time the first eggs were laid,2.48,days,0.2,0.2,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5B,Carrington et al. 2013. Effects of Fluctuating Daily Temperatures at Critical Thermal Extremes on Aedes aegypti Life-History Traits. PLoS ONE 8(3): e58824,10.1371/journal.pone.0058824,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is assumed to have been n=98 per treatment but this is not clearly stated in the paper.,TRUE,01/01/2013
NA,JOE036,gonotrophic cycle,mean period from the first blood meal to the time the first eggs were laid,4.27,days,0.31,0.31,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5B,Carrington et al. 2013. Effects of Fluctuating Daily Temperatures at Critical Thermal Extremes on Aedes aegypti Life-History Traits. PLoS ONE 8(3): e58824,10.1371/journal.pone.0058824,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is assumed to have been n=98 per treatment but this is not clearly stated in the paper.,TRUE,01/01/2013
NA,JOE036,gonotrophic cycle,mean period from the first blood meal to the time the first eggs were laid,0,days,0,0,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,37,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5B,Carrington et al. 2013. Effects of Fluctuating Daily Temperatures at Critical Thermal Extremes on Aedes aegypti Life-History Traits. PLoS ONE 8(3): e58824,10.1371/journal.pone.0058824,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is assumed to have been n=98 per treatment but this is not clearly stated in the paper. trait value set to zero because reproduction did not occur at this temperature,TRUE,01/01/2013
NA,JOE037,fecundity,mean eggs laid per female in their first gonotrophic cycle,0,eggs individual-1,0,0,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5C,Carrington et al. 2013. Effects of Fluctuating Daily Temperatures at Critical Thermal Extremes on Aedes aegypti Life-History Traits. PLoS ONE 8(3): e58824,10.1371/journal.pone.0058824,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is assumed to have been n=98 per treatment but this is not clearly stated in the paper. trait value set to zero because reproduction did not occur at this temperature,TRUE,01/01/2013
NA,JOE037,fecundity,mean eggs laid per female in their first gonotrophic cycle,44.16,eggs individual-1,6.84,6.84,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,20,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5C,Carrington et al. 2013. Effects of Fluctuating Daily Temperatures at Critical Thermal Extremes on Aedes aegypti Life-History Traits. PLoS ONE 8(3): e58824,10.1371/journal.pone.0058824,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is assumed to have been n=98 per treatment but this is not clearly stated in the paper.,TRUE,01/01/2013
NA,JOE037,fecundity,mean eggs laid per female in their first gonotrophic cycle,78.06,eggs individual-1,4.56,4.56,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5C,Carrington et al. 2013. Effects of Fluctuating Daily Temperatures at Critical Thermal Extremes on Aedes aegypti Life-History Traits. PLoS ONE 8(3): e58824,10.1371/journal.pone.0058824,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is assumed to have been n=98 per treatment but this is not clearly stated in the paper.,TRUE,01/01/2013
NA,JOE037,fecundity,mean eggs laid per female in their first gonotrophic cycle,71.79,eggs individual-1,8.26,8.26,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5C,Carrington et al. 2013. Effects of Fluctuating Daily Temperatures at Critical Thermal Extremes on Aedes aegypti Life-History Traits. PLoS ONE 8(3): e58824,10.1371/journal.pone.0058824,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is assumed to have been n=98 per treatment but this is not clearly stated in the paper.,TRUE,01/01/2013
NA,JOE037,fecundity,mean eggs laid per female in their first gonotrophic cycle,23.36,eggs individual-1,4.27,4.27,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5C,Carrington et al. 2013. Effects of Fluctuating Daily Temperatures at Critical Thermal Extremes on Aedes aegypti Life-History Traits. PLoS ONE 8(3): e58824,10.1371/journal.pone.0058824,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is assumed to have been n=98 per treatment but this is not clearly stated in the paper.,TRUE,01/01/2013
NA,JOE037,fecundity,mean eggs laid per female in their first gonotrophic cycle,0,eggs individual-1,0,0,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,37,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5C,Carrington et al. 2013. Effects of Fluctuating Daily Temperatures at Critical Thermal Extremes on Aedes aegypti Life-History Traits. PLoS ONE 8(3): e58824,10.1371/journal.pone.0058824,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is assumed to have been n=98 per treatment but this is not clearly stated in the paper. trait value set to zero because reproduction did not occur at this temperature,TRUE,01/01/2013
NA,JO111,vector competence,proportion infected with DENV-1 as a function of days post exposure and temperature,0.021,proportion,0.018,0.018,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,NA,7,days,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Carrington et al. 2013. Fluctuations at a low mean temperature accelerate dengue virus transmission by Aedes aegypti. PLoS Negl Trop Dis 7(4): e2190,10.1371/journal.pntd.0002190,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2013
NA,JO111,vector competence,proportion infected with DENV-1 as a function of days post exposure and temperature,0,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,NA,14,days,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Carrington et al. 2013. Fluctuations at a low mean temperature accelerate dengue virus transmission by Aedes aegypti. PLoS Negl Trop Dis 7(4): e2190,10.1371/journal.pntd.0002190,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2013
NA,JO111,vector competence,proportion infected with DENV-1 as a function of days post exposure and temperature,0.019,proportion,0.016,0.016,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,NA,21,days,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Carrington et al. 2013. Fluctuations at a low mean temperature accelerate dengue virus transmission by Aedes aegypti. PLoS Negl Trop Dis 7(4): e2190,10.1371/journal.pntd.0002190,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2013
NA,JO111,vector competence,proportion infected with DENV-1 as a function of days post exposure and temperature,0,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,NA,28,days,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Carrington et al. 2013. Fluctuations at a low mean temperature accelerate dengue virus transmission by Aedes aegypti. PLoS Negl Trop Dis 7(4): e2190,10.1371/journal.pntd.0002190,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2013
NA,JO111,vector competence,proportion infected with DENV-1 as a function of days post exposure and temperature,0.12,proportion,0.034,0.034,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,NA,7,days,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,20,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Carrington et al. 2013. Fluctuations at a low mean temperature accelerate dengue virus transmission by Aedes aegypti. PLoS Negl Trop Dis 7(4): e2190,10.1371/journal.pntd.0002190,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2013
NA,JO111,vector competence,proportion infected with DENV-1 as a function of days post exposure and temperature,0.184,proportion,0.041,0.041,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,NA,14,days,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,20,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Carrington et al. 2013. Fluctuations at a low mean temperature accelerate dengue virus transmission by Aedes aegypti. PLoS Negl Trop Dis 7(4): e2190,10.1371/journal.pntd.0002190,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2013
NA,JO111,vector competence,proportion infected with DENV-1 as a function of days post exposure and temperature,0.17,proportion,0.117,0.117,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,NA,21,days,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,20,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Carrington et al. 2013. Fluctuations at a low mean temperature accelerate dengue virus transmission by Aedes aegypti. PLoS Negl Trop Dis 7(4): e2190,10.1371/journal.pntd.0002190,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2013
NA,JO111,vector competence,proportion infected with DENV-1 as a function of days post exposure and temperature,0.195,proportion,0.035,0.035,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,NA,28,days,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,20,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Carrington et al. 2013. Fluctuations at a low mean temperature accelerate dengue virus transmission by Aedes aegypti. PLoS Negl Trop Dis 7(4): e2190,10.1371/journal.pntd.0002190,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2013
NA,JO111,vector competence,proportion infected with DENV-1 as a function of days post exposure and temperature,0.242,proportion,0.021,0.021,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,NA,7,days,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,160,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Carrington et al. 2013. Fluctuations at a low mean temperature accelerate dengue virus transmission by Aedes aegypti. PLoS Negl Trop Dis 7(4): e2190,10.1371/journal.pntd.0002190,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2013
NA,JO111,vector competence,proportion infected with DENV-1 as a function of days post exposure and temperature,0.19,proportion,0.146,0.146,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,NA,14,days,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,160,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Carrington et al. 2013. Fluctuations at a low mean temperature accelerate dengue virus transmission by Aedes aegypti. PLoS Negl Trop Dis 7(4): e2190,10.1371/journal.pntd.0002190,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2013
NA,JO111,vector competence,proportion infected with DENV-1 as a function of days post exposure and temperature,0.385,proportion,0.116,0.116,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,NA,21,days,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,160,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Carrington et al. 2013. Fluctuations at a low mean temperature accelerate dengue virus transmission by Aedes aegypti. PLoS Negl Trop Dis 7(4): e2190,10.1371/journal.pntd.0002190,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2013
NA,JO111,vector competence,proportion infected with DENV-1 as a function of days post exposure and temperature,0.218,proportion,0.228,0.228,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,NA,28,days,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,160,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Carrington et al. 2013. Fluctuations at a low mean temperature accelerate dengue virus transmission by Aedes aegypti. PLoS Negl Trop Dis 7(4): e2190,10.1371/journal.pntd.0002190,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2013
NA,JO111,vector competence,proportion infected with DENV-1 as a function of days post exposure and temperature,0.602,proportion,0.137,0.137,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,NA,3,days,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,144,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Carrington et al. 2013. Fluctuations at a low mean temperature accelerate dengue virus transmission by Aedes aegypti. PLoS Negl Trop Dis 7(4): e2190,10.1371/journal.pntd.0002190,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2013
NA,JO111,vector competence,proportion infected with DENV-1 as a function of days post exposure and temperature,0.588,proportion,0.043,0.043,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,NA,6,days,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,144,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Carrington et al. 2013. Fluctuations at a low mean temperature accelerate dengue virus transmission by Aedes aegypti. PLoS Negl Trop Dis 7(4): e2190,10.1371/journal.pntd.0002190,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2013
NA,JO111,vector competence,proportion infected with DENV-1 as a function of days post exposure and temperature,0.728,proportion,0.05,0.05,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,NA,9,days,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,144,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Carrington et al. 2013. Fluctuations at a low mean temperature accelerate dengue virus transmission by Aedes aegypti. PLoS Negl Trop Dis 7(4): e2190,10.1371/journal.pntd.0002190,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2013
NA,JO111,vector competence,proportion infected with DENV-1 as a function of days post exposure and temperature,0.416,proportion,0.138,0.138,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,NA,3,days,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,144,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Carrington et al. 2013. Fluctuations at a low mean temperature accelerate dengue virus transmission by Aedes aegypti. PLoS Negl Trop Dis 7(4): e2190,10.1371/journal.pntd.0002190,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2013
NA,JO111,vector competence,proportion infected with DENV-1 as a function of days post exposure and temperature,0.609,proportion,0.102,0.102,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,NA,6,days,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,144,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Carrington et al. 2013. Fluctuations at a low mean temperature accelerate dengue virus transmission by Aedes aegypti. PLoS Negl Trop Dis 7(4): e2190,10.1371/journal.pntd.0002190,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2013
NA,JO111,vector competence,proportion infected with DENV-1 as a function of days post exposure and temperature,0.535,proportion,0.137,0.137,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,NA,9,days,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,144,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Carrington et al. 2013. Fluctuations at a low mean temperature accelerate dengue virus transmission by Aedes aegypti. PLoS Negl Trop Dis 7(4): e2190,10.1371/journal.pntd.0002190,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2013
NA,JO112,vector competence,proportion with diseminated infection (head tissue) with DENV-1 as a function of days post exposure and temperature,0,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,NA,7,days,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Carrington et al. 2013. Fluctuations at a low mean temperature accelerate dengue virus transmission by Aedes aegypti. PLoS Negl Trop Dis 7(4): e2190,10.1371/journal.pntd.0002190,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2013
NA,JO112,vector competence,proportion with diseminated infection (head tissue) with DENV-1 as a function of days post exposure and temperature,0,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,NA,14,days,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Carrington et al. 2013. Fluctuations at a low mean temperature accelerate dengue virus transmission by Aedes aegypti. PLoS Negl Trop Dis 7(4): e2190,10.1371/journal.pntd.0002190,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2013
NA,JO112,vector competence,proportion with diseminated infection (head tissue) with DENV-1 as a function of days post exposure and temperature,0,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,NA,21,days,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Carrington et al. 2013. Fluctuations at a low mean temperature accelerate dengue virus transmission by Aedes aegypti. PLoS Negl Trop Dis 7(4): e2190,10.1371/journal.pntd.0002190,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2013
NA,JO112,vector competence,proportion with diseminated infection (head tissue) with DENV-1 as a function of days post exposure and temperature,0,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,NA,28,days,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Carrington et al. 2013. Fluctuations at a low mean temperature accelerate dengue virus transmission by Aedes aegypti. PLoS Negl Trop Dis 7(4): e2190,10.1371/journal.pntd.0002190,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2013
NA,JO112,vector competence,proportion with diseminated infection (head tissue) with DENV-1 as a function of days post exposure and temperature,0,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,NA,7,days,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,20,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Carrington et al. 2013. Fluctuations at a low mean temperature accelerate dengue virus transmission by Aedes aegypti. PLoS Negl Trop Dis 7(4): e2190,10.1371/journal.pntd.0002190,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2013
NA,JO112,vector competence,proportion with diseminated infection (head tissue) with DENV-1 as a function of days post exposure and temperature,0.081,proportion,0.081,0.081,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,NA,14,days,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,20,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Carrington et al. 2013. Fluctuations at a low mean temperature accelerate dengue virus transmission by Aedes aegypti. PLoS Negl Trop Dis 7(4): e2190,10.1371/journal.pntd.0002190,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2013
NA,JO112,vector competence,proportion with diseminated infection (head tissue) with DENV-1 as a function of days post exposure and temperature,0.165,proportion,0.165,0.165,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,NA,21,days,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,20,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Carrington et al. 2013. Fluctuations at a low mean temperature accelerate dengue virus transmission by Aedes aegypti. PLoS Negl Trop Dis 7(4): e2190,10.1371/journal.pntd.0002190,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2013
NA,JO112,vector competence,proportion with diseminated infection (head tissue) with DENV-1 as a function of days post exposure and temperature,0.41,proportion,0.229,0.229,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,NA,28,days,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,20,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Carrington et al. 2013. Fluctuations at a low mean temperature accelerate dengue virus transmission by Aedes aegypti. PLoS Negl Trop Dis 7(4): e2190,10.1371/journal.pntd.0002190,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2013
NA,JO112,vector competence,proportion with diseminated infection (head tissue) with DENV-1 as a function of days post exposure and temperature,0.097,proportion,0.104,0.104,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,NA,7,days,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,160,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Carrington et al. 2013. Fluctuations at a low mean temperature accelerate dengue virus transmission by Aedes aegypti. PLoS Negl Trop Dis 7(4): e2190,10.1371/journal.pntd.0002190,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2013
NA,JO112,vector competence,proportion with diseminated infection (head tissue) with DENV-1 as a function of days post exposure and temperature,0.837,proportion,0.162,0.162,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,NA,14,days,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,160,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Carrington et al. 2013. Fluctuations at a low mean temperature accelerate dengue virus transmission by Aedes aegypti. PLoS Negl Trop Dis 7(4): e2190,10.1371/journal.pntd.0002190,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2013
NA,JO112,vector competence,proportion with diseminated infection (head tissue) with DENV-1 as a function of days post exposure and temperature,0.882,proportion,0.117,0.117,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,NA,21,days,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,160,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Carrington et al. 2013. Fluctuations at a low mean temperature accelerate dengue virus transmission by Aedes aegypti. PLoS Negl Trop Dis 7(4): e2190,10.1371/journal.pntd.0002190,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2013
NA,JO112,vector competence,proportion with diseminated infection (head tissue) with DENV-1 as a function of days post exposure and temperature,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,NA,28,days,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,160,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Carrington et al. 2013. Fluctuations at a low mean temperature accelerate dengue virus transmission by Aedes aegypti. PLoS Negl Trop Dis 7(4): e2190,10.1371/journal.pntd.0002190,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2013
NA,JO112,vector competence,proportion with diseminated infection (head tissue) with DENV-1 as a function of days post exposure and temperature,0.07,proportion,0.064,0.064,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,NA,3,days,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,144,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Carrington et al. 2013. Fluctuations at a low mean temperature accelerate dengue virus transmission by Aedes aegypti. PLoS Negl Trop Dis 7(4): e2190,10.1371/journal.pntd.0002190,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2013
NA,JO112,vector competence,proportion with diseminated infection (head tissue) with DENV-1 as a function of days post exposure and temperature,0.784,proportion,0.055,0.055,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,NA,6,days,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,144,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Carrington et al. 2013. Fluctuations at a low mean temperature accelerate dengue virus transmission by Aedes aegypti. PLoS Negl Trop Dis 7(4): e2190,10.1371/journal.pntd.0002190,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2013
NA,JO112,vector competence,proportion with diseminated infection (head tissue) with DENV-1 as a function of days post exposure and temperature,0.908,proportion,0.06,0.06,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,NA,9,days,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,144,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Carrington et al. 2013. Fluctuations at a low mean temperature accelerate dengue virus transmission by Aedes aegypti. PLoS Negl Trop Dis 7(4): e2190,10.1371/journal.pntd.0002190,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2013
NA,JO112,vector competence,proportion with diseminated infection (head tissue) with DENV-1 as a function of days post exposure and temperature,0,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,NA,3,days,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,144,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Carrington et al. 2013. Fluctuations at a low mean temperature accelerate dengue virus transmission by Aedes aegypti. PLoS Negl Trop Dis 7(4): e2190,10.1371/journal.pntd.0002190,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2013
NA,JO112,vector competence,proportion with diseminated infection (head tissue) with DENV-1 as a function of days post exposure and temperature,0.933,proportion,0.037,0.037,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,NA,6,days,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,144,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Carrington et al. 2013. Fluctuations at a low mean temperature accelerate dengue virus transmission by Aedes aegypti. PLoS Negl Trop Dis 7(4): e2190,10.1371/journal.pntd.0002190,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2013
NA,JO112,vector competence,proportion with diseminated infection (head tissue) with DENV-1 as a function of days post exposure and temperature,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,NA,9,days,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,144,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Carrington et al. 2013. Fluctuations at a low mean temperature accelerate dengue virus transmission by Aedes aegypti. PLoS Negl Trop Dis 7(4): e2190,10.1371/journal.pntd.0002190,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2013
NA,JOE024,infection rate,percent with DEN-2 infected midgut after a 7-day post-infection period,11.38,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,duration of dpi (days post infection),7,days,NA,NA,NA,NA,NA,Nairobi Kenya,field (F1),01/01/2013,4,decimal,-1.286389,36.817222,Aedes aegypti,NA,NA,NA,249,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2A,Chepkorir et al. 2014. Vector competence of Aedes aegypti populations from Kilifi and Nairobi for dengue 2 virus and the influence of temperature. Parasites and Vectors 7:435,10.1186/1756-3305-7-435,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals tested,TRUE,01/01/2014
NA,JOE024,infection rate,percent with DEN-2 infected midgut after a 7-day post-infection period,10.98,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,duration of dpi (days post infection),14,days,NA,NA,NA,NA,NA,Nairobi Kenya,field (F1),01/01/2013,4,decimal,-1.286389,36.817222,Aedes aegypti,NA,NA,NA,249,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2A,Chepkorir et al. 2014. Vector competence of Aedes aegypti populations from Kilifi and Nairobi for dengue 2 virus and the influence of temperature. Parasites and Vectors 7:435,10.1186/1756-3305-7-435,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals tested,TRUE,01/01/2014
NA,JOE024,infection rate,percent with DEN-2 infected midgut after a 7-day post-infection period,13.93,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,duration of dpi (days post infection),21,days,NA,NA,NA,NA,NA,Nairobi Kenya,field (F1),01/01/2013,4,decimal,-1.286389,36.817222,Aedes aegypti,NA,NA,NA,249,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2A,Chepkorir et al. 2014. Vector competence of Aedes aegypti populations from Kilifi and Nairobi for dengue 2 virus and the influence of temperature. Parasites and Vectors 7:435,10.1186/1756-3305-7-435,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals tested,TRUE,01/01/2014
NA,JOE024,infection rate,percent with DEN-2 infected midgut after a 7-day post-infection period,18.22,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,duration of dpi (days post infection),7,days,NA,NA,NA,NA,NA,Nairobi Kenya,field (F1),01/01/2013,4,decimal,-1.286389,36.817222,Aedes aegypti,NA,NA,NA,268,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2A,Chepkorir et al. 2014. Vector competence of Aedes aegypti populations from Kilifi and Nairobi for dengue 2 virus and the influence of temperature. Parasites and Vectors 7:435,10.1186/1756-3305-7-435,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals tested,TRUE,01/01/2014
NA,JOE024,infection rate,percent with DEN-2 infected midgut after a 7-day post-infection period,28.17,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,duration of dpi (days post infection),14,days,NA,NA,NA,NA,NA,Nairobi Kenya,field (F1),01/01/2013,4,decimal,-1.286389,36.817222,Aedes aegypti,NA,NA,NA,268,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2A,Chepkorir et al. 2014. Vector competence of Aedes aegypti populations from Kilifi and Nairobi for dengue 2 virus and the influence of temperature. Parasites and Vectors 7:435,10.1186/1756-3305-7-435,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals tested,TRUE,01/01/2014
NA,JOE024,infection rate,percent with DEN-2 infected midgut after a 7-day post-infection period,17.67,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,duration of dpi (days post infection),21,days,NA,NA,NA,NA,NA,Nairobi Kenya,field (F1),01/01/2013,4,decimal,-1.286389,36.817222,Aedes aegypti,NA,NA,NA,268,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2A,Chepkorir et al. 2014. Vector competence of Aedes aegypti populations from Kilifi and Nairobi for dengue 2 virus and the influence of temperature. Parasites and Vectors 7:435,10.1186/1756-3305-7-435,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals tested,TRUE,01/01/2014
NA,JOE025,infection rate,percent with DEN-2 infected midgut after a 7-day post-infection period,0,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,duration of dpi (days post infection),7,days,NA,NA,NA,NA,NA,Kilifi Kenya,field (F1),01/01/2013,4,decimal,-3.63,39.85,Aedes aegypti,NA,NA,NA,300,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2B,Chepkorir et al. 2014. Vector competence of Aedes aegypti populations from Kilifi and Nairobi for dengue 2 virus and the influence of temperature. Parasites and Vectors 7:435,10.1186/1756-3305-7-435,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2014
NA,JOE025,infection rate,percent with DEN-2 infected midgut after a 7-day post-infection period,7.02,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,duration of dpi (days post infection),14,days,NA,NA,NA,NA,NA,Kilifi Kenya,field (F1),01/01/2013,4,decimal,-3.63,39.85,Aedes aegypti,NA,NA,NA,300,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2B,Chepkorir et al. 2014. Vector competence of Aedes aegypti populations from Kilifi and Nairobi for dengue 2 virus and the influence of temperature. Parasites and Vectors 7:435,10.1186/1756-3305-7-435,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2014
NA,JOE025,infection rate,percent with DEN-2 infected midgut after a 7-day post-infection period,11.97,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,duration of dpi (days post infection),21,days,NA,NA,NA,NA,NA,Kilifi Kenya,field (F1),01/01/2013,4,decimal,-3.63,39.85,Aedes aegypti,NA,NA,NA,300,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2B,Chepkorir et al. 2014. Vector competence of Aedes aegypti populations from Kilifi and Nairobi for dengue 2 virus and the influence of temperature. Parasites and Vectors 7:435,10.1186/1756-3305-7-435,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2014
NA,JOE025,infection rate,percent with DEN-2 infected midgut after a 7-day post-infection period,12.93,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,duration of dpi (days post infection),7,days,NA,NA,NA,NA,NA,Kilifi Kenya,field (F1),01/01/2013,4,decimal,-3.63,39.85,Aedes aegypti,NA,NA,NA,300,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2B,Chepkorir et al. 2014. Vector competence of Aedes aegypti populations from Kilifi and Nairobi for dengue 2 virus and the influence of temperature. Parasites and Vectors 7:435,10.1186/1756-3305-7-435,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2014
NA,JOE025,infection rate,percent with DEN-2 infected midgut after a 7-day post-infection period,4.95,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,duration of dpi (days post infection),14,days,NA,NA,NA,NA,NA,Kilifi Kenya,field (F1),01/01/2013,4,decimal,-3.63,39.85,Aedes aegypti,NA,NA,NA,300,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2B,Chepkorir et al. 2014. Vector competence of Aedes aegypti populations from Kilifi and Nairobi for dengue 2 virus and the influence of temperature. Parasites and Vectors 7:435,10.1186/1756-3305-7-435,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2014
NA,JOE025,infection rate,percent with DEN-2 infected midgut after a 7-day post-infection period,17.02,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,duration of dpi (days post infection),21,days,NA,NA,NA,NA,NA,Kilifi Kenya,field (F1),01/01/2013,4,decimal,-3.63,39.85,Aedes aegypti,NA,NA,NA,300,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2B,Chepkorir et al. 2014. Vector competence of Aedes aegypti populations from Kilifi and Nairobi for dengue 2 virus and the influence of temperature. Parasites and Vectors 7:435,10.1186/1756-3305-7-435,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2014
NA,JOE025,infection rate,percent with DEN-2 infected midgut,11.99,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Nairobi Kenya,field (F1),01/01/2013,4,decimal,-1.286389,36.817222,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Chepkorir et al. 2014. Vector competence of Aedes aegypti populations from Kilifi and Nairobi for dengue 2 virus and the influence of temperature. Parasites and Vectors 7:435,10.1186/1756-3305-7-435,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2014
NA,JOE025,infection rate,percent with DEN-2 infected midgut,6.27,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kilifi Kenya,field (F1),01/01/2013,4,decimal,-3.63,39.85,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Chepkorir et al. 2014. Vector competence of Aedes aegypti populations from Kilifi and Nairobi for dengue 2 virus and the influence of temperature. Parasites and Vectors 7:435,10.1186/1756-3305-7-435,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2014
NA,JOE025,infection rate,percent with DEN-2 infected midgut,21.18,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Nairobi Kenya,field (F1),01/01/2013,4,decimal,-1.286389,36.817222,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Chepkorir et al. 2014. Vector competence of Aedes aegypti populations from Kilifi and Nairobi for dengue 2 virus and the influence of temperature. Parasites and Vectors 7:435,10.1186/1756-3305-7-435,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2014
NA,JOE025,infection rate,percent with DEN-2 infected midgut,11.57,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kilifi Kenya,field (F1),01/01/2013,4,decimal,-3.63,39.85,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Chepkorir et al. 2014. Vector competence of Aedes aegypti populations from Kilifi and Nairobi for dengue 2 virus and the influence of temperature. Parasites and Vectors 7:435,10.1186/1756-3305-7-435,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2014
NA,JOE025,dissemination rate,percent disseminated DEN-2 infections (i.e. had spread from the midgut to other parts of the body),16.43,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Nairobi Kenya,field (F1),01/01/2013,4,decimal,-1.286389,36.817222,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Chepkorir et al. 2014. Vector competence of Aedes aegypti populations from Kilifi and Nairobi for dengue 2 virus and the influence of temperature. Parasites and Vectors 7:435,10.1186/1756-3305-7-435,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2014
NA,JOE025,dissemination rate,percent disseminated DEN-2 infections (i.e. had spread from the midgut to other parts of the body),36.9,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kilifi Kenya,field (F1),01/01/2013,4,decimal,-3.63,39.85,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Chepkorir et al. 2014. Vector competence of Aedes aegypti populations from Kilifi and Nairobi for dengue 2 virus and the influence of temperature. Parasites and Vectors 7:435,10.1186/1756-3305-7-435,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2014
NA,JOE025,dissemination rate,percent disseminated DEN-2 infections (i.e. had spread from the midgut to other parts of the body),6.82,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Nairobi Kenya,field (F1),01/01/2013,4,decimal,-1.286389,36.817222,Aedes aegypti,NA,NA,NA,57,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Chepkorir et al. 2014. Vector competence of Aedes aegypti populations from Kilifi and Nairobi for dengue 2 virus and the influence of temperature. Parasites and Vectors 7:435,10.1186/1756-3305-7-435,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2014
NA,JOE025,dissemination rate,percent disseminated DEN-2 infections (i.e. had spread from the midgut to other parts of the body),42.95,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kilifi Kenya,field (F1),01/01/2013,4,decimal,-3.63,39.85,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Chepkorir et al. 2014. Vector competence of Aedes aegypti populations from Kilifi and Nairobi for dengue 2 virus and the influence of temperature. Parasites and Vectors 7:435,10.1186/1756-3305-7-435,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2014
NA,CHC001,infection rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC001,infection rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC001,infection rate,NA,36.67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC001,infection rate,NA,53.33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC001,infection rate,NA,70,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,21,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC001,infection rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC001,infection rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC001,infection rate,NA,40,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC001,infection rate,NA,70,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,21,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC001,infection rate,NA,76.67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC001,infection rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC001,infection rate,NA,23.33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC001,infection rate,NA,56.67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC001,infection rate,NA,73.33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,22,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC001,infection rate,NA,90,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC001,infection rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC001,infection rate,NA,30,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC001,infection rate,NA,66.67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC001,infection rate,NA,80,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC001,infection rate,NA,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC001,infection rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,14,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC001,infection rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,14,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC001,infection rate,NA,33.33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,14,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC001,infection rate,NA,53.33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,14,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC001,infection rate,NA,66.67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,14,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC001,infection rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,21,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC001,infection rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,21,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC001,infection rate,NA,36.67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,21,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC001,infection rate,NA,66.67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,21,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC001,infection rate,NA,73.33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,21,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,22,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC001,infection rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,14,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC001,infection rate,NA,36.67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,14,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC001,infection rate,NA,66.67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,14,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC001,infection rate,NA,80,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,14,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC001,infection rate,NA,93.33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,14,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC001,infection rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,21,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC001,infection rate,NA,43.33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,21,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC001,infection rate,NA,76.67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,21,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,23,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC001,infection rate,NA,93.33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,21,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC001,infection rate,NA,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,21,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC002,dissemination rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC002,dissemination rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC002,dissemination rate,NA,18.18,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=11 tested,TRUE,01/01/2020
NA,CHC002,dissemination rate,NA,56.25,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=16 tested,TRUE,01/01/2020
NA,CHC002,dissemination rate,NA,71.43,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=21 tested,TRUE,01/01/2020
NA,CHC002,dissemination rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC002,dissemination rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC002,dissemination rate,NA,25,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=12 tested,TRUE,01/01/2020
NA,CHC002,dissemination rate,NA,66.67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=21 tested,TRUE,01/01/2020
NA,CHC002,dissemination rate,NA,73.91,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=23 tested,TRUE,01/01/2020
NA,CHC002,dissemination rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC002,dissemination rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=7 tested,TRUE,01/01/2020
NA,CHC002,dissemination rate,NA,35.29,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=17 tested,TRUE,01/01/2020
NA,CHC002,dissemination rate,NA,68.18,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=22 tested,TRUE,01/01/2020
NA,CHC002,dissemination rate,NA,85.19,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,23,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=27 tested,TRUE,01/01/2020
NA,CHC002,dissemination rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC002,dissemination rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=9 tested,TRUE,01/01/2020
NA,CHC002,dissemination rate,NA,45,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=20 tested,TRUE,01/01/2020
NA,CHC002,dissemination rate,NA,70.83,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=24 tested,TRUE,01/01/2020
NA,CHC002,dissemination rate,NA,90,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC002,dissemination rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,14,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC002,dissemination rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,14,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC002,dissemination rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,14,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=10 tested,TRUE,01/01/2020
NA,CHC002,dissemination rate,NA,43.75,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,14,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=16 tested,TRUE,01/01/2020
NA,CHC002,dissemination rate,NA,65,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,14,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=20 tested,TRUE,01/01/2020
NA,CHC002,dissemination rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,21,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC002,dissemination rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,21,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC002,dissemination rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,21,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=11 tested,TRUE,01/01/2020
NA,CHC002,dissemination rate,NA,60,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,21,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=20 tested,TRUE,01/01/2020
NA,CHC002,dissemination rate,NA,68.18,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,21,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=22 tested,TRUE,01/01/2020
NA,CHC002,dissemination rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,14,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC002,dissemination rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,14,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=11 tested,TRUE,01/01/2020
NA,CHC002,dissemination rate,NA,45,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,14,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=20 tested,TRUE,01/01/2020
NA,CHC002,dissemination rate,NA,70.83,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,14,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=24 tested,TRUE,01/01/2020
NA,CHC002,dissemination rate,NA,85.71,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,14,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=28 tested,TRUE,01/01/2020
NA,CHC002,dissemination rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,21,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC002,dissemination rate,NA,15.38,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,21,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=13 tested,TRUE,01/01/2020
NA,CHC002,dissemination rate,NA,52.17,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,21,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=23 tested,TRUE,01/01/2020
NA,CHC002,dissemination rate,NA,78.57,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,21,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,22,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=28 tested,TRUE,01/01/2020
NA,CHC002,dissemination rate,NA,93.33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,21,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC003,transmission rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC003,transmission rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC003,transmission rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=2 tested,TRUE,01/01/2020
NA,CHC003,transmission rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=9 tested,TRUE,01/01/2020
NA,CHC003,transmission rate,NA,40,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=15 tested,TRUE,01/01/2020
NA,CHC003,transmission rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC003,transmission rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC003,transmission rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=3 tested,TRUE,01/01/2020
NA,CHC003,transmission rate,NA,28.47,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=14 tested,TRUE,01/01/2020
NA,CHC003,transmission rate,NA,47.06,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=17 tested,TRUE,01/01/2020
NA,CHC003,transmission rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC003,transmission rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC003,transmission rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=6 tested,TRUE,01/01/2020
NA,CHC003,transmission rate,NA,53.33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=15 tested,TRUE,01/01/2020
NA,CHC003,transmission rate,NA,78.26,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=23 tested,TRUE,01/01/2020
NA,CHC003,transmission rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC003,transmission rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC003,transmission rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=9 tested,TRUE,01/01/2020
NA,CHC003,transmission rate,NA,58.82,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=17 tested,TRUE,01/01/2020
NA,CHC003,transmission rate,NA,74.04,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=27 tested,TRUE,01/01/2020
NA,CHC003,transmission rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,14,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC003,transmission rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,14,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC003,transmission rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,14,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC003,transmission rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,14,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=7 tested,TRUE,01/01/2020
NA,CHC003,transmission rate,NA,30.77,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,14,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=13 tested,TRUE,01/01/2020
NA,CHC003,transmission rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,21,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC003,transmission rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,21,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC003,transmission rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,21,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC003,transmission rate,NA,16.67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,21,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=12 tested,TRUE,01/01/2020
NA,CHC003,transmission rate,NA,40,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,21,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=15 tested,TRUE,01/01/2020
NA,CHC003,transmission rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,14,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC003,transmission rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,14,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC003,transmission rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,14,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=9 tested,TRUE,01/01/2020
NA,CHC003,transmission rate,NA,52.94,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,14,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=17 tested,TRUE,01/01/2020
NA,CHC003,transmission rate,NA,83.33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,14,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=24 tested,TRUE,01/01/2020
NA,CHC003,transmission rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,21,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC003,transmission rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,21,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=2 tested,TRUE,01/01/2020
NA,CHC003,transmission rate,NA,33.33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,21,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=12 tested,TRUE,01/01/2020
NA,CHC003,transmission rate,NA,54.55,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,21,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=22 tested,TRUE,01/01/2020
NA,CHC003,transmission rate,NA,78.57,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,21,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,22,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=28 tested,TRUE,01/01/2020
NA,CHC004,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC004,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC004,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC004,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC004,transmission efficacy,NA,20,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC004,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC004,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC004,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC004,transmission efficacy,NA,13.33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC004,transmission efficacy,NA,26.67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC004,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC004,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC004,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC004,transmission efficacy,NA,26.67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC004,transmission efficacy,NA,60,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC004,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC004,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC004,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC004,transmission efficacy,NA,33.33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC004,transmission efficacy,NA,66.67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC004,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,14,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC004,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,14,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC004,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,14,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC004,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,14,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC004,transmission efficacy,NA,13.33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,14,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC004,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,21,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC004,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,21,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC004,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,21,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC004,transmission efficacy,NA,6.67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,21,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC004,transmission efficacy,NA,20,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,21,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC004,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,14,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC004,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,14,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC004,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,14,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC004,transmission efficacy,NA,30,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,14,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC004,transmission efficacy,NA,66.67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,14,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC004,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,21,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC004,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,21,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC004,transmission efficacy,NA,13.33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,21,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC004,transmission efficacy,NA,40,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,21,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC004,transmission efficacy,NA,73.33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,21,days,NA,Natal Rio Grande do Norte,field (F1),NA,0,decimal,-5.78,-35.2,Aedes aegypti,NA,NA,NA,22,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC005,infection rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC005,infection rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC005,infection rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC005,infection rate,NA,10,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC005,infection rate,NA,36.67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC005,infection rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC005,infection rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC005,infection rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC005,infection rate,NA,16.47,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC005,infection rate,NA,43.33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC005,infection rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC005,infection rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC005,infection rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC005,infection rate,NA,16.67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC005,infection rate,NA,53.33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC005,infection rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC005,infection rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC005,infection rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC005,infection rate,NA,23.33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC005,infection rate,NA,56.67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC005,infection rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,14,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC005,infection rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,14,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC005,infection rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,14,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC005,infection rate,NA,6.67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,14,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC005,infection rate,NA,30,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,14,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC005,infection rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,21,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC005,infection rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,21,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC005,infection rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,21,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC005,infection rate,NA,10,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,21,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC005,infection rate,NA,33.3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,21,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC005,infection rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,14,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC005,infection rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,14,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC005,infection rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,14,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC005,infection rate,NA,26.67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,14,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC005,infection rate,NA,56.67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,14,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC005,infection rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,21,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC005,infection rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,21,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC005,infection rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,21,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC005,infection rate,NA,26.67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,21,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC005,infection rate,NA,66.67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,21,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC006,dissemination rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC006,dissemination rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC006,dissemination rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC006,dissemination rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=3 tested,TRUE,01/01/2020
NA,CHC006,dissemination rate,NA,27.27,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=11 tested,TRUE,01/01/2020
NA,CHC006,dissemination rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC006,dissemination rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC006,dissemination rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC006,dissemination rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=5 tested,TRUE,01/01/2020
NA,CHC006,dissemination rate,NA,30.77,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=13 tested,TRUE,01/01/2020
NA,CHC006,dissemination rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC006,dissemination rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC006,dissemination rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC006,dissemination rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=5 tested,TRUE,01/01/2020
NA,CHC006,dissemination rate,NA,37.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=16 tested,TRUE,01/01/2020
NA,CHC006,dissemination rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC006,dissemination rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC006,dissemination rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC006,dissemination rate,NA,14.29,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=7 tested,TRUE,01/01/2020
NA,CHC006,dissemination rate,NA,41.18,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=17 tested,TRUE,01/01/2020
NA,CHC006,dissemination rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,14,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC006,dissemination rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,14,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC006,dissemination rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,14,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC006,dissemination rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,14,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=2 tested,TRUE,01/01/2020
NA,CHC006,dissemination rate,NA,22.22,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,14,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=9 tested,TRUE,01/01/2020
NA,CHC006,dissemination rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,21,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC006,dissemination rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,21,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC006,dissemination rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,21,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC006,dissemination rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,21,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=3 tested,TRUE,01/01/2020
NA,CHC006,dissemination rate,NA,20,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,21,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=10 tested,TRUE,01/01/2020
NA,CHC006,dissemination rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,14,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC006,dissemination rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,14,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC006,dissemination rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,14,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC006,dissemination rate,NA,12.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,14,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=8 tested,TRUE,01/01/2020
NA,CHC006,dissemination rate,NA,41.18,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,14,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=17 tested,TRUE,01/01/2020
NA,CHC006,dissemination rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,21,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC006,dissemination rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,21,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC006,dissemination rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,21,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC006,dissemination rate,NA,25,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,21,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=8 tested,TRUE,01/01/2020
NA,CHC006,dissemination rate,NA,45,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,21,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=20 tested,TRUE,01/01/2020
NA,CHC007,transmission rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC007,transmission rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC007,transmission rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC007,transmission rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC007,transmission rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=3 tested,TRUE,01/01/2020
NA,CHC007,transmission rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC007,transmission rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC007,transmission rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC007,transmission rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC007,transmission rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=4 tested,TRUE,01/01/2020
NA,CHC007,transmission rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC007,transmission rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC007,transmission rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC007,transmission rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC007,transmission rate,NA,16.67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=6 tested,TRUE,01/01/2020
NA,CHC007,transmission rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC007,transmission rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC007,transmission rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC007,transmission rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=1 tested,TRUE,01/01/2020
NA,CHC007,transmission rate,NA,14.29,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=7 tested,TRUE,01/01/2020
NA,CHC007,transmission rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,14,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC007,transmission rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,14,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC007,transmission rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,14,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC007,transmission rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,14,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC007,transmission rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,14,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=2 tested,TRUE,01/01/2020
NA,CHC007,transmission rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,21,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC007,transmission rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,21,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC007,transmission rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,21,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC007,transmission rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,21,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC007,transmission rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,21,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=2 tested,TRUE,01/01/2020
NA,CHC007,transmission rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,14,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC007,transmission rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,14,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC007,transmission rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,14,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC007,transmission rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,14,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=1 tested,TRUE,01/01/2020
NA,CHC007,transmission rate,NA,14.29,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,14,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=7 tested,TRUE,01/01/2020
NA,CHC007,transmission rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,21,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC007,transmission rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,21,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC007,transmission rate,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,21,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2020
NA,CHC007,transmission rate,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,21,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=2 tested,TRUE,01/01/2020
NA,CHC007,transmission rate,NA,22.22,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,21,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=9 tested,TRUE,01/01/2020
NA,CHC008,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC008,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC008,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC008,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC008,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC008,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC008,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC008,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC008,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC008,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC008,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC008,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC008,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC008,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC008,transmission efficacy,NA,3.33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,14,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC008,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC008,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC008,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC008,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC008,transmission efficacy,NA,3.33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,21,days,NA,Urca Rio de Janeiro,field (F1),NA,0,decimal,-22.95,-43.16,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC008,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,14,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC008,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,14,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC008,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,14,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC008,transmission efficacy,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,14,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC008,transmission efficacy,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,14,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC008,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,21,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC008,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,21,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC008,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,21,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC008,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,21,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC008,transmission efficacy,NA,NA,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,21,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC008,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,14,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC008,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,14,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC008,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,14,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC008,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,14,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC008,transmission efficacy,NA,3.33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,14,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC008,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100,PFU/ml,NA,NA,21,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC008,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000,PFU/ml,NA,NA,21,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC008,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,10000,PFU/ml,NA,NA,21,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC008,transmission efficacy,NA,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,100000,PFU/ml,NA,NA,21,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,CHC008,transmission efficacy,NA,6.67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,28,constant,Celsius,12,hours,virus titer,NA,1000000,PFU/ml,NA,NA,21,days,NA,Manaus Amazonas,field (F1),NA,0,decimal,-3.04,-59.94,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Chouin-Carneiro et al. 2020. Zika virus transmission by Brazilian Aedes aegypti and Aedes albopictus is virus dose and temperature-dependent. PLoS Negl Trop Dis 14(9) e0008527,10.1371/journal.pntd.0008527,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of positive individuals out of n=30 tested,TRUE,01/01/2020
NA,NA,transmission rate,ZIKV transmission rate by maternal temperature (percent of vertically infected progeny),8.3,percent,15.1,3.8,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,University of Georgia USA,colony,01/01/1970,0,decimal,33.9558,-83.3745,Aedes aegypti,NA,NA,NA,109,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,27,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Comeau et al. 2020. Vertical Transmission of Zika Virus in Aedes aegypti Produces Potentially Infectious Progeny. American Journal of Tropical Medicine and Hygiene 103:2,10.4269/ajtmh.19-0698,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,08/06/2020
NA,NA,transmission rate,ZIKV transmission rate by maternal temperature (percent of vertically infected progeny),5.7,percent,12,2.1,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,University of Georgia USA,colony,01/01/1970,0,decimal,33.9558,-83.3745,Aedes aegypti,NA,NA,NA,105,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,30,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Comeau et al. 2020. Vertical Transmission of Zika Virus in Aedes aegypti Produces Potentially Infectious Progeny. American Journal of Tropical Medicine and Hygiene 103:2,10.4269/ajtmh.19-0698,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,08/06/2020
NA,NA,transmission rate,ZIKV transmission rate by maternal temperature (percent of vertically infected progeny),3.8,percent,10.7,0.8,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,University of Georgia USA,colony,01/01/1970,0,decimal,33.9558,-83.3745,Aedes aegypti,NA,NA,NA,79,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,33,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Comeau et al. 2020. Vertical Transmission of Zika Virus in Aedes aegypti Produces Potentially Infectious Progeny. American Journal of Tropical Medicine and Hygiene 103:2,10.4269/ajtmh.19-0698,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,08/06/2020
NA,NA,transmission rate,ZIKV transmission rate by maternal temperature (percent of vertically infected progeny),4,percent,9.9,1.1,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,University of Georgia USA,colony,01/01/1970,0,decimal,33.9558,-83.3745,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,27,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure1b,Comeau et al. 2020. Vertical Transmission of Zika Virus in Aedes aegypti Produces Potentially Infectious Progeny. American Journal of Tropical Medicine and Hygiene 103:2,10.4269/ajtmh.19-0698,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,percent of progeny with Zika virus (ZIKV) present in abdomen indicating vertical infection,TRUE,08/06/2020
NA,NA,transmission rate,ZIKV transmission rate by maternal temperature (percent of vertically infected progeny),3,percent,8.6,0.6,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,University of Georgia USA,colony,01/01/1970,0,decimal,33.9558,-83.3745,Aedes aegypti,NA,NA,NA,99,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,30,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure1b,Comeau et al. 2020. Vertical Transmission of Zika Virus in Aedes aegypti Produces Potentially Infectious Progeny. American Journal of Tropical Medicine and Hygiene 103:2,10.4269/ajtmh.19-0698,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,percent of progeny with Zika virus (ZIKV) present in abdomen indicating vertical infection,TRUE,08/06/2020
NA,NA,transmission rate,ZIKV transmission rate by maternal temperature (percent of vertically infected progeny),3.8,percent,10.7,0.8,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,University of Georgia USA,colony,01/01/1970,0,decimal,33.9558,-83.3745,Aedes aegypti,NA,NA,NA,79,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,33,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure1b,Comeau et al. 2020. Vertical Transmission of Zika Virus in Aedes aegypti Produces Potentially Infectious Progeny. American Journal of Tropical Medicine and Hygiene 103:2,10.4269/ajtmh.19-0698,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,percent of progeny with Zika virus (ZIKV) present in abdomen indicating vertical infection,TRUE,08/06/2020
NA,NA,transmission rate,ZIKV transmission rate by maternal temperature (percent of vertically infected progeny),4.9,percent,11.1,1.6,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,University of Georgia USA,colony,01/01/1970,0,decimal,33.9558,-83.3745,Aedes aegypti,NA,NA,NA,102,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,27,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure1b,Comeau et al. 2020. Vertical Transmission of Zika Virus in Aedes aegypti Produces Potentially Infectious Progeny. American Journal of Tropical Medicine and Hygiene 103:2,10.4269/ajtmh.19-0698,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,percent of progeny with Zika virus (ZIKV) present in saliva indicating potential infectiousness,TRUE,08/06/2020
NA,NA,transmission rate,ZIKV transmission rate by maternal temperature (percent of vertically infected progeny),3.8,percent,9.6,1.5,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,University of Georgia USA,colony,01/01/1970,0,decimal,33.9558,-83.3745,Aedes aegypti,NA,NA,NA,104,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,30,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure1b,Comeau et al. 2020. Vertical Transmission of Zika Virus in Aedes aegypti Produces Potentially Infectious Progeny. American Journal of Tropical Medicine and Hygiene 103:2,10.4269/ajtmh.19-0698,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,percent of progeny with Zika virus (ZIKV) present in saliva indicating potential infectiousness,TRUE,08/06/2020
NA,NA,transmission rate,ZIKV transmission rate by maternal temperature (percent of vertically infected progeny),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,University of Georgia USA,colony,01/01/1970,0,decimal,33.9558,-83.3745,Aedes aegypti,NA,NA,NA,77,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,33,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure1b,Comeau et al. 2020. Vertical Transmission of Zika Virus in Aedes aegypti Produces Potentially Infectious Progeny. American Journal of Tropical Medicine and Hygiene 103:2,10.4269/ajtmh.19-0698,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,percent of progeny with Zika virus (ZIKV) present in saliva indicating potential infectiousness,TRUE,08/06/2020
NA,NA,transmission rate,ZIKV transmission rate by gonotrophic cycle (percent of vertically infected progeny),4,percent,8.1,1.6,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,gonotrophic cycle,gonotrophic cycle cohort,1,number,NA,NA,NA,NA,NA,University of Georgia USA,colony,01/01/1970,0,decimal,33.9558,-83.3745,Aedes aegypti,NA,NA,NA,174,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Comeau et al. 2020. Vertical Transmission of Zika Virus in Aedes aegypti Produces Potentially Infectious Progeny. American Journal of Tropical Medicine and Hygiene 103:2,10.4269/ajtmh.19-0698,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,08/06/2020
NA,NA,transmission rate,ZIKV transmission rate by gonotrophic cycle (percent of vertically infected progeny),8.6,percent,15.6,4,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,gonotrophic cycle,gonotrophic cycle cohort,2,number,NA,NA,NA,NA,NA,University of Georgia USA,colony,01/01/1970,0,decimal,33.9558,-83.3745,Aedes aegypti,NA,NA,NA,105,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Comeau et al. 2020. Vertical Transmission of Zika Virus in Aedes aegypti Produces Potentially Infectious Progeny. American Journal of Tropical Medicine and Hygiene 103:2,10.4269/ajtmh.19-0698,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,08/06/2020
NA,NA,transmission rate,ZIKV transmission rate by gonotrophic cycle (percent of vertically infected progeny),14.3,percent,42.8,1.8,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,gonotrophic cycle,gonotrophic cycle cohort,3,number,NA,NA,NA,NA,NA,University of Georgia USA,colony,01/01/1970,0,decimal,33.9558,-83.3745,Aedes aegypti,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Comeau et al. 2020. Vertical Transmission of Zika Virus in Aedes aegypti Produces Potentially Infectious Progeny. American Journal of Tropical Medicine and Hygiene 103:2,10.4269/ajtmh.19-0698,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,08/06/2020
NA,NA,transmission rate,ZIKV transmission rate by gonotrophic cycle (percent of vertically infected progeny),1.7,percent,5,0.4,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,gonotrophic cycle,gonotrophic cycle cohort,1,number,NA,NA,NA,NA,NA,University of Georgia USA,colony,01/01/1970,0,decimal,33.9558,-83.3745,Aedes aegypti,NA,NA,NA,174,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Comeau et al. 2020. Vertical Transmission of Zika Virus in Aedes aegypti Produces Potentially Infectious Progeny. American Journal of Tropical Medicine and Hygiene 103:2,10.4269/ajtmh.19-0698,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,percent of progeny with Zika virus (ZIKV) present in abdomen indicating vertical infection,TRUE,08/06/2020
NA,NA,transmission rate,ZIKV transmission rate by gonotrophic cycle (percent of vertically infected progeny),7.8,percent,15.4,3.2,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,gonotrophic cycle,gonotrophic cycle cohort,2,number,NA,NA,NA,NA,NA,University of Georgia USA,colony,01/01/1970,0,decimal,33.9558,-83.3745,Aedes aegypti,NA,NA,NA,90,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Comeau et al. 2020. Vertical Transmission of Zika Virus in Aedes aegypti Produces Potentially Infectious Progeny. American Journal of Tropical Medicine and Hygiene 103:2,10.4269/ajtmh.19-0698,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,percent of progeny with Zika virus (ZIKV) present in abdomen indicating vertical infection,TRUE,08/06/2020
NA,NA,transmission rate,ZIKV transmission rate by gonotrophic cycle (percent of vertically infected progeny),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,gonotrophic cycle,gonotrophic cycle cohort,3,number,NA,NA,NA,NA,NA,University of Georgia USA,colony,01/01/1970,0,decimal,33.9558,-83.3745,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Comeau et al. 2020. Vertical Transmission of Zika Virus in Aedes aegypti Produces Potentially Infectious Progeny. American Journal of Tropical Medicine and Hygiene 103:2,10.4269/ajtmh.19-0698,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,percent of progeny with Zika virus (ZIKV) present in abdomen indicating vertical infection,TRUE,08/06/2020
NA,NA,transmission rate,ZIKV transmission rate by gonotrophic cycle (percent of vertically infected progeny),3,percent,6.9,1,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,gonotrophic cycle,gonotrophic cycle cohort,1,number,NA,NA,NA,NA,NA,University of Georgia USA,colony,01/01/1970,0,decimal,33.9558,-83.3745,Aedes aegypti,NA,NA,NA,166,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Comeau et al. 2020. Vertical Transmission of Zika Virus in Aedes aegypti Produces Potentially Infectious Progeny. American Journal of Tropical Medicine and Hygiene 103:2,10.4269/ajtmh.19-0698,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,percent of progeny with Zika virus (ZIKV) present in saliva indicating potential infectiousness,TRUE,08/06/2020
NA,NA,transmission rate,ZIKV transmission rate by gonotrophic cycle (percent of vertically infected progeny),1.9,percent,6.8,0.2,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,gonotrophic cycle,gonotrophic cycle cohort,2,number,NA,NA,NA,NA,NA,University of Georgia USA,colony,01/01/1970,0,decimal,33.9558,-83.3745,Aedes aegypti,NA,NA,NA,104,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Comeau et al. 2020. Vertical Transmission of Zika Virus in Aedes aegypti Produces Potentially Infectious Progeny. American Journal of Tropical Medicine and Hygiene 103:2,10.4269/ajtmh.19-0698,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,percent of progeny with Zika virus (ZIKV) present in saliva indicating potential infectiousness,TRUE,08/06/2020
NA,NA,transmission rate,ZIKV transmission rate by gonotrophic cycle (percent of vertically infected progeny),16.7,percent,48.4,2.1,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,gonotrophic cycle,gonotrophic cycle cohort,3,number,NA,NA,NA,NA,NA,University of Georgia USA,colony,01/01/1970,0,decimal,33.9558,-83.3745,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Comeau et al. 2020. Vertical Transmission of Zika Virus in Aedes aegypti Produces Potentially Infectious Progeny. American Journal of Tropical Medicine and Hygiene 103:2,10.4269/ajtmh.19-0698,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,percent of progeny with Zika virus (ZIKV) present in saliva indicating potential infectiousness,TRUE,08/06/2020
NA,NA,transmission rate,ZIKV transmission rate by adult progeny age (percent of vertically infected progeny),11.7,percent,19.5,6.2,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,progeny age,adult progeny age,3,day-old,NA,NA,NA,NA,NA,University of Georgia USA,colony,01/01/1970,0,decimal,33.9558,-83.3745,Aedes aegypti,NA,NA,NA,103,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Comeau et al. 2020. Vertical Transmission of Zika Virus in Aedes aegypti Produces Potentially Infectious Progeny. American Journal of Tropical Medicine and Hygiene 103:2,10.4269/ajtmh.19-0698,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,08/06/2020
NA,NA,transmission rate,ZIKV transmission rate by adult progeny age (percent of vertically infected progeny),2.8,percent,7.9,0.6,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,progeny age,adult progeny age,7,day-old,NA,NA,NA,NA,NA,University of Georgia USA,colony,01/01/1970,0,decimal,33.9558,-83.3745,Aedes aegypti,NA,NA,NA,108,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Comeau et al. 2020. Vertical Transmission of Zika Virus in Aedes aegypti Produces Potentially Infectious Progeny. American Journal of Tropical Medicine and Hygiene 103:2,10.4269/ajtmh.19-0698,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,08/06/2020
NA,NA,transmission rate,ZIKV transmission rate by adult progeny age (percent of vertically infected progeny),3.7,percent,10.3,0.8,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,progeny age,adult progeny age,14,day-old,NA,NA,NA,NA,NA,University of Georgia USA,colony,01/01/1970,0,decimal,33.9558,-83.3745,Aedes aegypti,NA,NA,NA,82,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Comeau et al. 2020. Vertical Transmission of Zika Virus in Aedes aegypti Produces Potentially Infectious Progeny. American Journal of Tropical Medicine and Hygiene 103:2,10.4269/ajtmh.19-0698,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,08/06/2020
NA,NA,transmission rate,ZIKV transmission rate by adult progeny age (percent of vertically infected progeny),8.2,percent,15.5,3.6,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,progeny age,adult progeny age,3,day-old,NA,NA,NA,NA,NA,University of Georgia USA,colony,01/01/1970,0,decimal,33.9558,-83.3745,Aedes aegypti,NA,NA,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Comeau et al. 2020. Vertical Transmission of Zika Virus in Aedes aegypti Produces Potentially Infectious Progeny. American Journal of Tropical Medicine and Hygiene 103:2,10.4269/ajtmh.19-0698,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,percent of progeny with Zika virus (ZIKV) present in abdomen indicating vertical infection,TRUE,08/06/2020
NA,NA,transmission rate,ZIKV transmission rate by adult progeny age (percent of vertically infected progeny),1,percent,5.6,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,progeny age,adult progeny age,7,day-old,NA,NA,NA,NA,NA,University of Georgia USA,colony,01/01/1970,0,decimal,33.9558,-83.3745,Aedes aegypti,NA,NA,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Comeau et al. 2020. Vertical Transmission of Zika Virus in Aedes aegypti Produces Potentially Infectious Progeny. American Journal of Tropical Medicine and Hygiene 103:2,10.4269/ajtmh.19-0698,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,percent of progeny with Zika virus (ZIKV) present in abdomen indicating vertical infection,TRUE,08/06/2020
NA,NA,transmission rate,ZIKV transmission rate by adult progeny age (percent of vertically infected progeny),1.2,percent,6.6,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,progeny age,adult progeny age,14,day-old,NA,NA,NA,NA,NA,University of Georgia USA,colony,01/01/1970,0,decimal,33.9558,-83.3745,Aedes aegypti,NA,NA,NA,82,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Comeau et al. 2020. Vertical Transmission of Zika Virus in Aedes aegypti Produces Potentially Infectious Progeny. American Journal of Tropical Medicine and Hygiene 103:2,10.4269/ajtmh.19-0698,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,percent of progeny with Zika virus (ZIKV) present in abdomen indicating vertical infection,TRUE,08/06/2020
NA,NA,transmission rate,ZIKV transmission rate by adult progeny age (percent of vertically infected progeny),4.4,percent,10.8,1.2,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,progeny age,adult progeny age,3,day-old,NA,NA,NA,NA,NA,University of Georgia USA,colony,01/01/1970,0,decimal,33.9558,-83.3745,Aedes aegypti,NA,NA,NA,91,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Comeau et al. 2020. Vertical Transmission of Zika Virus in Aedes aegypti Produces Potentially Infectious Progeny. American Journal of Tropical Medicine and Hygiene 103:2,10.4269/ajtmh.19-0698,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,percent of progeny with Zika virus (ZIKV) present in saliva indicating potential infectiousness,TRUE,08/06/2020
NA,NA,transmission rate,ZIKV transmission rate by adult progeny age (percent of vertically infected progeny),1.9,percent,6.7,0.2,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,progeny age,adult progeny age,7,day-old,NA,NA,NA,NA,NA,University of Georgia USA,colony,01/01/1970,0,decimal,33.9558,-83.3745,Aedes aegypti,NA,NA,NA,105,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Comeau et al. 2020. Vertical Transmission of Zika Virus in Aedes aegypti Produces Potentially Infectious Progeny. American Journal of Tropical Medicine and Hygiene 103:2,10.4269/ajtmh.19-0698,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,percent of progeny with Zika virus (ZIKV) present in saliva indicating potential infectiousness,TRUE,08/06/2020
NA,NA,transmission rate,ZIKV transmission rate by adult progeny age (percent of vertically infected progeny),3.4,percent,9.7,0.8,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,progeny age,adult progeny age,14,day-old,NA,NA,NA,NA,NA,University of Georgia USA,colony,01/01/1970,0,decimal,33.9558,-83.3745,Aedes aegypti,NA,NA,NA,87,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Comeau et al. 2020. Vertical Transmission of Zika Virus in Aedes aegypti Produces Potentially Infectious Progeny. American Journal of Tropical Medicine and Hygiene 103:2,10.4269/ajtmh.19-0698,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,percent of progeny with Zika virus (ZIKV) present in saliva indicating potential infectiousness,TRUE,08/06/2020
NA,NA,fecundity,mean lifetime number of eggs per individual,85.99,eggs individual-1,3.16,3.16,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,NA,NA,NA,NA,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,102,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2010
NA,NA,fecundity,mean lifetime number of eggs per individual,82.89,eggs individual-1,3.33,3.33,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,NA,NA,NA,NA,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,111,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2010
NA,NA,fecundity,mean lifetime number of eggs per individual,54.53,eggs individual-1,4.81,4.81,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,NA,NA,NA,NA,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,55,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2010
NA,NA,fecundity,mean lifetime number of eggs per individual,99.08,eggs individual-1,3.56,3.56,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,NA,NA,NA,NA,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,92,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2010
NA,NA,fecundity,mean lifetime number of eggs per individual,75.75,eggs individual-1,5.03,5.03,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,NA,NA,NA,NA,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2010
NA,NA,fecundity,mean lifetime number of eggs per individual,59.62,eggs individual-1,3.41,3.41,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,NA,NA,NA,NA,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,79,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2010
NA,NA,survival,percentage of eggs hatching,63.33,percent,3.52,3.52,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,NA,NA,NA,NA,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,2565,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of individuals that survived life stage from n=4050 at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage of eggs hatching,54.91,percent,4.39,4.39,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,NA,NA,NA,NA,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,4050,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of individuals that survived life stage from n=7375 at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage of eggs hatching,41.4,percent,7.37,7.37,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,NA,NA,NA,NA,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,497,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of individuals that survived life stage from n=1201 at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage of eggs hatching,59.06,percent,4.89,4.89,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,NA,NA,NA,NA,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,1076,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of individuals that survived life stage from n=1822 at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage of eggs hatching,70.67,percent,5.3,5.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,NA,NA,NA,NA,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,1057,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of individuals that survived life stage from n=1496 at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage of eggs hatching,42.97,percent,6.11,6.11,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,NA,NA,NA,NA,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,484,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of individuals that survived life stage from n=1127 at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,0,eggs,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,1,3,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,113,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,0,eggs,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,1,3,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,105,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,0,eggs,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,1,3,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,149,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,0,eggs,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,1,3,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,0,eggs,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,1,3,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,0,eggs,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,1,3,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,110,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,47.9,eggs,7.86,7.86,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,4,4,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,81.9,eggs,5.47,5.47,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,4,4,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,80.02,eggs,3.5,3.5,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,4,4,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,72.61,eggs,5.54,5.54,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,4,4,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,53.76,eggs,6.01,6.01,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,4,4,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,58.61,eggs,3.45,3.45,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,4,4,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,54.24,eggs,5.64,5.64,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,5,5,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,86.9,eggs,6.57,6.57,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,5,5,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,40.75,eggs,6.9,6.9,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,5,5,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,59.56,eggs,13.3,13.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,5,5,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,42,eggs,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,5,5,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,80,eggs,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,5,5,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,65.64,eggs,5.14,5.14,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,6,6,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,63.38,eggs,11,11,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,6,6,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,51.5,eggs,43.5,43.5,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,6,6,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,117.67,eggs,10,10,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,6,6,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,0,eggs,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,6,6,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,0,eggs,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,6,6,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,64.76,eggs,10.5,10.5,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,7,7,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,49.43,eggs,21.9,21.9,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,7,7,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,7,7,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,7,7,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,7,7,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,7,7,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,32,eggs,23,23,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,8,8,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,93.5,eggs,21.5,21.5,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,8,8,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,8,8,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,8,8,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,8,8,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,8,8,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,9,9,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,9,9,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,9,9,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,9,9,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,9,9,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,9,9,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,10,10,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,10,10,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,10,10,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,10,10,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,10,10,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,10,10,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,11,11,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,11,11,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,11,11,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,11,11,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,11,11,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,fecundity rate,mean population-level number of eggs laid per day as a function temperature and humidity,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,11,11,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,1,3,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,113,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,1,3,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,105,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,1,3,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,149,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,1,3,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,1,3,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,1,3,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,110,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,4,4,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,4,4,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,4,4,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,4,4,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,4,4,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,4,4,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,96.46,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,5,5,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,97.14,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,5,5,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,57.4,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,5,5,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,39,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,5,5,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,12,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,5,5,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,20.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,5,5,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,89.38,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,6,6,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,85.71,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,6,6,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,33.3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,6,6,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,6,6,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,6,6,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,6,6,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,64.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,7,7,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,67.62,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,7,7,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,5.55,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,7,7,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,1,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,7,7,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,7,7,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,7,7,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,23.01,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,8,8,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,34.29,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,8,8,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,8,8,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,8,8,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,8,8,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,8,8,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,9,9,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,21.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,9,9,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,9,9,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,9,9,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,9,9,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,9,9,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,10,10,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,8.57,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,10,10,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,10,10,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,10,10,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,10,10,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,10,10,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,11,11,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,4.67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,11,11,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,11,11,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,11,11,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,percent,11,11,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,NA,survival,percentage survival measured across time (days) as a function of temperature and humidity,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,percent,11,11,NA,day,NA,Recife Brazil,colony,NA,0,decimal,-8.066667,-34.866667,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Costa et al. 2010. Impact of small variations in temperature and humidity on the reproductive activity and survival of Aedes aegypti (Diptera Culicidae). Parasites Vectors 12:578,10.1590/S0085-56262010000300021,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2010
NA,BRI002,development time,minumum duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,0 = low density (0.5 larvae per ml) 1 = high density (more than 3 larvae per ml),0,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,12,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI002,development time,minumum duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,0 = low density (0.5 larvae per ml) 1 = high density (more than 3 larvae per ml),1,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,12,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI002,development time,minumum duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,0 = low density (0.5 larvae per ml) 1 = high density (more than 3 larvae per ml),0,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,17,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI002,development time,minumum duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,0 = low density (0.5 larvae per ml) 1 = high density (more than 3 larvae per ml),1,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,17,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI002,development time,minumum duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,0 = low density (0.5 larvae per ml) 1 = high density (more than 3 larvae per ml),0,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI002,development time,minumum duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,0 = low density (0.5 larvae per ml) 1 = high density (more than 3 larvae per ml),1,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI002,development time,minumum duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,0 = low density (0.5 larvae per ml) 1 = high density (more than 3 larvae per ml),0,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI002,development time,minumum duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,0 = low density (0.5 larvae per ml) 1 = high density (more than 3 larvae per ml),1,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI003,development time,maximum duration of life stage,51,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,0 = low density (0.5 larvae per ml) 1 = high density (more than 3 larvae per ml),0,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,12,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI003,development time,maximum duration of life stage,53,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,0 = low density (0.5 larvae per ml) 1 = high density (more than 3 larvae per ml),1,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,12,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI003,development time,maximum duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,0 = low density (0.5 larvae per ml) 1 = high density (more than 3 larvae per ml),0,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,17,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI003,development time,maximum duration of life stage,88,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,0 = low density (0.5 larvae per ml) 1 = high density (more than 3 larvae per ml),1,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,17,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI003,development time,maximum duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,0 = low density (0.5 larvae per ml) 1 = high density (more than 3 larvae per ml),0,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI003,development time,maximum duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,0 = low density (0.5 larvae per ml) 1 = high density (more than 3 larvae per ml),1,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI003,development time,maximum duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,0 = low density (0.5 larvae per ml) 1 = high density (more than 3 larvae per ml),0,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI003,development time,maximum duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,0 = low density (0.5 larvae per ml) 1 = high density (more than 3 larvae per ml),1,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI004,development time,minumum duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,0 = low density (0.5 larvae per ml) 1 = high density (more than 3 larvae per ml),0,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,12,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI004,development time,minumum duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,0 = low density (0.5 larvae per ml) 1 = high density (more than 3 larvae per ml),1,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,12,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI004,development time,minumum duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,0 = low density (0.5 larvae per ml) 1 = high density (more than 3 larvae per ml),0,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,17,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI004,development time,minumum duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,0 = low density (0.5 larvae per ml) 1 = high density (more than 3 larvae per ml),1,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,17,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI004,development time,minumum duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,0 = low density (0.5 larvae per ml) 1 = high density (more than 3 larvae per ml),0,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI004,development time,minumum duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,0 = low density (0.5 larvae per ml) 1 = high density (more than 3 larvae per ml),1,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI004,development time,minumum duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,0 = low density (0.5 larvae per ml) 1 = high density (more than 3 larvae per ml),0,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI004,development time,minumum duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,0 = low density (0.5 larvae per ml) 1 = high density (more than 3 larvae per ml),1,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI005,development time,maximum duration of life stage,55,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,0 = low density (0.5 larvae per ml) 1 = high density (more than 3 larvae per ml),0,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,12,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI005,development time,maximum duration of life stage,66,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,0 = low density (0.5 larvae per ml) 1 = high density (more than 3 larvae per ml),1,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,12,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI005,development time,maximum duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,0 = low density (0.5 larvae per ml) 1 = high density (more than 3 larvae per ml),0,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,17,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI005,development time,maximum duration of life stage,90,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,0 = low density (0.5 larvae per ml) 1 = high density (more than 3 larvae per ml),1,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,17,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI005,development time,maximum duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,0 = low density (0.5 larvae per ml) 1 = high density (more than 3 larvae per ml),0,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI005,development time,maximum duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,0 = low density (0.5 larvae per ml) 1 = high density (more than 3 larvae per ml),1,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI005,development time,maximum duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,0 = low density (0.5 larvae per ml) 1 = high density (more than 3 larvae per ml),0,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI005,development time,maximum duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,0 = low density (0.5 larvae per ml) 1 = high density (more than 3 larvae per ml),1,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BUCK002,development time,mean duration of life stage,11.62,days,0.202,0.202,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,250,mg,NA,NA,NA,NA,NA,Key West Florida USA,colony (F6),NA,0,decimal,24.57855475,-81.70039785,Aedes aegypti,NA,NA,NA,500,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval (L1 to pupa),NA,24,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Buckner et al. 2016. Larval temperature food effects on adult mosquito infection and vertical transmission of dengue-1 virus. J. Med. Entomol. 53:1,10.1093/jme/tjv145,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F6 progeny of larvae collected from Key West (Florida),TRUE,01/01/2016
NA,BUCK002,development time,mean duration of life stage,12.38,days,0.303,0.303,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,250,mg,NA,NA,NA,NA,NA,Vero Beach Florida USA,field (F2),NA,0,decimal,27.58734199,-80.37339082,Aedes albopictus,NA,NA,NA,500,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval (L1 to pupa),NA,24,Celsius,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Buckner et al. 2016. Larval temperature food effects on adult mosquito infection and vertical transmission of dengue-1 virus. J. Med. Entomol. 53:1,10.1093/jme/tjv145,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F2 progeny of larvae collected from the campus of the Florida Medical Entomology Laboratory in Vero Beach Florida,TRUE,01/01/2016
NA,BUCK002,development time,mean duration of life stage,10.51,days,0.96,0.96,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,500,mg,NA,NA,NA,NA,NA,Key West Florida USA,colony (F6),NA,0,decimal,24.57855475,-81.70039785,Aedes aegypti,NA,NA,NA,500,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval (L1 to pupa),NA,24,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Buckner et al. 2016. Larval temperature food effects on adult mosquito infection and vertical transmission of dengue-1 virus. J. Med. Entomol. 53:1,10.1093/jme/tjv145,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F6 progeny of larvae collected from Key West (Florida),TRUE,01/01/2016
NA,BUCK002,development time,mean duration of life stage,10.06,days,0.152,0.152,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,500,mg,NA,NA,NA,NA,NA,Vero Beach Florida USA,field (F2),NA,0,decimal,27.58734199,-80.37339082,Aedes albopictus,NA,NA,NA,500,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval (L1 to pupa),NA,24,Celsius,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Buckner et al. 2016. Larval temperature food effects on adult mosquito infection and vertical transmission of dengue-1 virus. J. Med. Entomol. 53:1,10.1093/jme/tjv145,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F2 progeny of larvae collected from the campus of the Florida Medical Entomology Laboratory in Vero Beach Florida,TRUE,01/01/2016
NA,BUCK002,development time,mean duration of life stage,11.88,days,1.264,1.264,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,250,mg,NA,NA,NA,NA,NA,Key West Florida USA,colony (F6),NA,0,decimal,24.57855475,-81.70039785,Aedes aegypti,NA,NA,NA,500,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval (L1 to pupa),NA,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Buckner et al. 2016. Larval temperature food effects on adult mosquito infection and vertical transmission of dengue-1 virus. J. Med. Entomol. 53:1,10.1093/jme/tjv145,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F6 progeny of larvae collected from Key West (Florida),TRUE,01/01/2016
NA,BUCK002,development time,mean duration of life stage,12.18,days,0.202,0.202,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,250,mg,NA,NA,NA,NA,NA,Vero Beach Florida USA,field (F2),NA,0,decimal,27.58734199,-80.37339082,Aedes albopictus,NA,NA,NA,500,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval (L1 to pupa),NA,30,Celsius,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Buckner et al. 2016. Larval temperature food effects on adult mosquito infection and vertical transmission of dengue-1 virus. J. Med. Entomol. 53:1,10.1093/jme/tjv145,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F2 progeny of larvae collected from the campus of the Florida Medical Entomology Laboratory in Vero Beach Florida,TRUE,01/01/2016
NA,BUCK002,development time,mean duration of life stage,8.14,days,0.303,0.303,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,500,mg,NA,NA,NA,NA,NA,Key West Florida USA,colony (F6),NA,0,decimal,24.57855475,-81.70039785,Aedes aegypti,NA,NA,NA,500,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval (L1 to pupa),NA,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Buckner et al. 2016. Larval temperature food effects on adult mosquito infection and vertical transmission of dengue-1 virus. J. Med. Entomol. 53:1,10.1093/jme/tjv145,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F6 progeny of larvae collected from Key West (Florida),TRUE,01/01/2016
NA,BUCK002,development time,mean duration of life stage,9.55,days,0.202,0.202,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,500,mg,NA,NA,NA,NA,NA,Vero Beach Florida USA,field (F2),NA,0,decimal,27.58734199,-80.37339082,Aedes albopictus,NA,NA,NA,500,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval (L1 to pupa),NA,30,Celsius,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Buckner et al. 2016. Larval temperature food effects on adult mosquito infection and vertical transmission of dengue-1 virus. J. Med. Entomol. 53:1,10.1093/jme/tjv145,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F2 progeny of larvae collected from the campus of the Florida Medical Entomology Laboratory in Vero Beach Florida,TRUE,01/01/2016
NA,SSA206,development time,mean duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,12,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that did not survive life stage from n=100 at the start of the experiment. trait value set to because development did not occur at this temperature (i.e. mortality was complete),TRUE,01/01/2023
NA,SSA206,development time,mean duration of life stage,14.463,days,1.168,1.168,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,36,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA206,development time,mean duration of life stage,9.133,days,1.232,1.232,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,49,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA206,development time,mean duration of life stage,24.375,days,0.946,0.946,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,15,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA206,development time,mean duration of life stage,10.53,days,1.562,1.562,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,67,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,25,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA206,development time,mean duration of life stage,8.962,days,1.528,1.528,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,35,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA206,development time,mean duration of life stage,17.731,days,1.482,1.482,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,39,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,18,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA206,development time,mean duration of life stage,8.128,days,0.636,0.636,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,39,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,28,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA206,development time,mean duration of life stage,8.857,days,1.916,1.916,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,38,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA206,development time,mean duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,13,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that did not survive life stage from n=100 at the start of the experiment. trait value set to because development did not occur at this temperature (i.e. mortality was complete),TRUE,01/01/2023
NA,SSA206,development time,mean duration of life stage,30.571,days,4.004,4.004,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,21,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,16,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA206,development time,mean duration of life stage,15.095,days,1.201,1.201,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,37,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,19,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA206,development time,mean duration of life stage,12.214,days,1.47,1.47,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,54,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,23,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA206,development time,mean duration of life stage,8.831,days,1.118,1.118,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,69,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA206,development time,mean duration of life stage,7.714,days,0.837,0.837,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,70,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA206,development time,mean duration of life stage,7.639,days,0.773,0.773,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,54,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA206,development time,mean duration of life stage,8.464,days,0.95,0.95,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA206,development time,mean duration of life stage,9,days,1.607,1.607,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,39,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA206,development time,mean duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,14,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that did not survive life stage from n=100 at the start of the experiment. trait value set to because development did not occur at this temperature (i.e. mortality was complete),TRUE,01/01/2023
NA,SSA206,development time,mean duration of life stage,25.05,days,1.44,1.44,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,38,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA206,development time,mean duration of life stage,14.382,days,1.115,1.115,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,34,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA206,development time,mean duration of life stage,14.667,days,0.976,0.976,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,52,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,20,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA206,development time,mean duration of life stage,8.261,days,0.795,0.795,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,61,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA206,development time,mean duration of life stage,9.619,days,1.409,1.409,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,57,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,27,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,COU005,mortality,percentage not surviving life stage,8.75,percent,0.01,0.01,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,21,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5a,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU005,mortality,percentage not surviving life stage,5.22,percent,0.01,0.01,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5a,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU005,mortality,percentage not surviving life stage,8.6,percent,0.01,0.01,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,27,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5a,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU005,mortality,percentage not surviving life stage,13.31,percent,0.02,0.02,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,30,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5a,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU005,mortality,percent not surviving life stage,13.09,percent,0.02,0.02,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,10,mg ml-1,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,NA,NA,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5b,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU005,mortality,percent not surviving life stage,7.35,percent,0.01,0.01,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,20,mg ml-1,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,NA,NA,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5b,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU005,mortality,percent not surviving life stage,6.47,percent,0.01,0.01,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,40,mg ml-1,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,NA,NA,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5b,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU005,mortality,percent not surviving life stage,9.12,percent,0.01,0.01,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,80,mg ml-1,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,NA,NA,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5b,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU005,mortality,percent not surviving life stage,10.29,percent,0.02,0.02,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,intitial larval rearing density,10,larvae per 250 ml water,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,NA,NA,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5c,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU005,mortality,percent not surviving life stage,9.04,percent,0.01,0.01,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,intitial larval rearing density,20,larvae per 250 ml water,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,NA,NA,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5c,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU005,mortality,percent not surviving life stage,7.06,percent,0.01,0.01,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,intitial larval rearing density,40,larvae per 250 ml water,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,NA,NA,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5c,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU005,mortality,percent not surviving life stage,9.63,percent,0.02,0.02,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,intitial larval rearing density,80,larvae per 250 ml water,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,80,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,NA,NA,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5c,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.833333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.833333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.833333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.833333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.833333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.833333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.833333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.833333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.833333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.833333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.833333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.833333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.833333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.833333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.8,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.833333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.8,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.833333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,8,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAE,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Juazeiro Brazil,colony,01/01/2010,1,decimal,-9.433342662,-40.50754734,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.833333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.833333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.833333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.833333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.833333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.833333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.833333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.833333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.8,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.8,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.766666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,23,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.833333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.833333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.8,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.833333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.833333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.833333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.833333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.833333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.833333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.833333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.8,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,24,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.833333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.8,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.833333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.833333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.8,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.8,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.8,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.766666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,23,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,8,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.833333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.833333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.833333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.833333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.833333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.833333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.833333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.833333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.833333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.833333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.833333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.833333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.833333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.833333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,4,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,2,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,4,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.866666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,6,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,10,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,1,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,2,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,3,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,4,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,5,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,6,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,7,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,8,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,9,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,10,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,11,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,12,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,13,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,14,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.966666667,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.933333333,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,CSAL,survival,proportion that survived as a function of time after cold exposure,0.9,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,time at chilling temperature,1,hours,NA,NA,15,days,totalobstime is time after that at the chilling temperature when survival is measured,Rimini Italy,colony,01/01/2012,1,decimal,44.059444,12.568333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,climate chamber,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Culbert et al. 2019. Investigating the impact of chilling temperature on male Aedes aegypti and Aedes albopictus survival. PLOS ONE 14(8): e0221822.,10.1371/journal.pone.0221822,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2019
NA,SSA206,development time,mean duration of life stage,6.706,days,0.826,0.826,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,51,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA206,development time,mean duration of life stage,8.765,days,0.752,0.752,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,37,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA206,development time,mean duration of life stage,11.5,days,0.707,0.707,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,40,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA207,development rate,mean rate of life stage completion,0,days-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,12,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that did not survive life stage from n=100 at the start of the experiment. trait value set to because development did not occur at this temperature (i.e. mortality was complete),TRUE,01/01/2023
NA,SSA207,development rate,mean rate of life stage completion,0,days-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,13,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that did not survive life stage from n=100 at the start of the experiment. trait value set to because development did not occur at this temperature (i.e. mortality was complete),TRUE,01/01/2023
NA,SSA207,development rate,mean rate of life stage completion,0,days-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,14,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that did not survive life stage from n=100 at the start of the experiment. trait value set to because development did not occur at this temperature (i.e. mortality was complete),TRUE,01/01/2023
NA,SSA207,development rate,mean rate of life stage completion,0.041,days-1,0.002,0.002,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,15,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA207,development rate,mean rate of life stage completion,0.033,days-1,0.004,0.004,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,21,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,16,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA207,development rate,mean rate of life stage completion,0.04,days-1,0.002,0.002,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,38,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA207,development rate,mean rate of life stage completion,0.057,days-1,0.005,0.005,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,39,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,18,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA207,development rate,mean rate of life stage completion,0.067,days-1,0.005,0.005,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,37,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,19,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA207,development rate,mean rate of life stage completion,0.068,days-1,0.005,0.005,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,52,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,20,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA207,development rate,mean rate of life stage completion,0.07,days-1,0.005,0.005,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,36,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA207,development rate,mean rate of life stage completion,0.083,days-1,0.01,0.01,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,54,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,23,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA207,development rate,mean rate of life stage completion,0.07,days-1,0.006,0.006,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,34,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA207,development rate,mean rate of life stage completion,0.097,days-1,0.014,0.014,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,67,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,25,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA207,development rate,mean rate of life stage completion,0.115,days-1,0.014,0.014,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,69,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA207,development rate,mean rate of life stage completion,0.106,days-1,0.015,0.015,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,57,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,27,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,FTTB,body size,replicate-level mean wing length,3.43,mm,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,adult,female,19.13,Celsius,incubator,19.13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTB,body size,replicate-level mean wing length,3.39,mm,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,adult,female,19.13,Celsius,incubator,19.13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTB,body size,replicate-level mean wing length,3.21,mm,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,adult,female,19.13,Celsius,incubator,19.13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTB,body size,replicate-level mean wing length,3.16,mm,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,adult,female,19.13,Celsius,incubator,19.13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTB,body size,replicate-level mean wing length,3.1,mm,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,adult,female,19.13,Celsius,incubator,19.13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTB,body size,replicate-level mean wing length,3.7,mm,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,adult,female,19.13,Celsius,incubator,19.13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTB,body size,replicate-level mean wing length,3.33,mm,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,adult,female,24.9,Celsius,incubator,24.9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTB,body size,replicate-level mean wing length,3.32,mm,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,adult,female,24.9,Celsius,incubator,24.9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTB,body size,replicate-level mean wing length,3.3,mm,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,adult,female,24.9,Celsius,incubator,24.9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTB,body size,replicate-level mean wing length,3.28,mm,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,adult,female,24.9,Celsius,incubator,24.9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTB,body size,replicate-level mean wing length,3.28,mm,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,adult,female,24.9,Celsius,incubator,24.9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTB,body size,replicate-level mean wing length,3.27,mm,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,adult,female,24.9,Celsius,incubator,24.9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTB,body size,replicate-level mean wing length,3.15,mm,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,adult,female,31.02,Celsius,incubator,31.02,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTB,body size,replicate-level mean wing length,3.09,mm,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,adult,female,31.02,Celsius,incubator,31.02,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTB,body size,replicate-level mean wing length,3.07,mm,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,adult,female,31.02,Celsius,incubator,31.02,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTB,body size,replicate-level mean wing length,3.01,mm,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,adult,female,31.02,Celsius,incubator,31.02,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTB,body size,replicate-level mean wing length,3,mm,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,adult,female,31.02,Celsius,incubator,31.02,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTB,body size,replicate-level mean wing length,2.98,mm,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,adult,female,31.02,Celsius,incubator,31.02,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTC,fecundity,replicate-level mean number of matured ovarian follicles,111,follicles individual-1,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,adult,female,19.13,Celsius,incubator,19.13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTC,fecundity,replicate-level mean number of matured ovarian follicles,103,follicles individual-1,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,adult,female,19.13,Celsius,incubator,19.13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTC,fecundity,replicate-level mean number of matured ovarian follicles,73,follicles individual-1,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,adult,female,19.13,Celsius,incubator,19.13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTC,fecundity,replicate-level mean number of matured ovarian follicles,66,follicles individual-1,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,adult,female,19.13,Celsius,incubator,19.13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTC,fecundity,replicate-level mean number of matured ovarian follicles,64,follicles individual-1,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,adult,female,19.13,Celsius,incubator,19.13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTC,fecundity,replicate-level mean number of matured ovarian follicles,26,follicles individual-1,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,adult,female,19.13,Celsius,incubator,19.13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTC,fecundity,replicate-level mean number of matured ovarian follicles,136,follicles individual-1,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,adult,female,24.9,Celsius,incubator,24.9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTC,fecundity,replicate-level mean number of matured ovarian follicles,130,follicles individual-1,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,adult,female,24.9,Celsius,incubator,24.9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTC,fecundity,replicate-level mean number of matured ovarian follicles,125,follicles individual-1,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,adult,female,24.9,Celsius,incubator,24.9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTC,fecundity,replicate-level mean number of matured ovarian follicles,125,follicles individual-1,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,adult,female,24.9,Celsius,incubator,24.9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTC,fecundity,replicate-level mean number of matured ovarian follicles,124,follicles individual-1,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,adult,female,24.9,Celsius,incubator,24.9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTC,fecundity,replicate-level mean number of matured ovarian follicles,123,follicles individual-1,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,adult,female,24.9,Celsius,incubator,24.9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTC,fecundity,replicate-level mean number of matured ovarian follicles,110,follicles individual-1,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,adult,female,31.02,Celsius,incubator,31.02,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTC,fecundity,replicate-level mean number of matured ovarian follicles,109,follicles individual-1,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,adult,female,31.02,Celsius,incubator,31.02,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTC,fecundity,replicate-level mean number of matured ovarian follicles,104,follicles individual-1,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,adult,female,31.02,Celsius,incubator,31.02,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTC,fecundity,replicate-level mean number of matured ovarian follicles,96,follicles individual-1,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,adult,female,31.02,Celsius,incubator,31.02,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTC,fecundity,replicate-level mean number of matured ovarian follicles,95,follicles individual-1,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,adult,female,31.02,Celsius,incubator,31.02,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTC,fecundity,replicate-level mean number of matured ovarian follicles,84,follicles individual-1,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,adult,female,31.02,Celsius,incubator,31.02,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTD,survival,replicate-level proportion surviving life stage,0.87,proportion,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,juvenile,female,19.13,Celsius,incubator,19.13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females that suvived per experimental unit from an initial number of n=15,TRUE,01/01/2020
NA,FTTD,survival,replicate-level proportion surviving life stage,0.34,proportion,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,juvenile,female,19.13,Celsius,incubator,19.13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females that suvived per experimental unit from an initial number of n=15,TRUE,01/01/2020
NA,FTTD,survival,replicate-level proportion surviving life stage,0.3,proportion,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,juvenile,female,19.13,Celsius,incubator,19.13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females that suvived per experimental unit from an initial number of n=15,TRUE,01/01/2020
NA,FTTD,survival,replicate-level proportion surviving life stage,0.29,proportion,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,juvenile,female,19.13,Celsius,incubator,19.13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females that suvived per experimental unit from an initial number of n=15,TRUE,01/01/2020
NA,FTTD,survival,replicate-level proportion surviving life stage,0.15,proportion,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,juvenile,female,19.13,Celsius,incubator,19.13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females that suvived per experimental unit from an initial number of n=15,TRUE,01/01/2020
NA,FTTD,survival,replicate-level proportion surviving life stage,0.13,proportion,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,juvenile,female,19.13,Celsius,incubator,19.13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females that suvived per experimental unit from an initial number of n=15,TRUE,01/01/2020
NA,FTTD,survival,replicate-level proportion surviving life stage,1,proportion,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,juvenile,female,24.9,Celsius,incubator,24.9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females that suvived per experimental unit from an initial number of n=15,TRUE,01/01/2020
NA,FTTD,survival,replicate-level proportion surviving life stage,1,proportion,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,juvenile,female,24.9,Celsius,incubator,24.9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females that suvived per experimental unit from an initial number of n=15,TRUE,01/01/2020
NA,FTTD,survival,replicate-level proportion surviving life stage,0.98,proportion,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,juvenile,female,24.9,Celsius,incubator,24.9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females that suvived per experimental unit from an initial number of n=15,TRUE,01/01/2020
NA,FTTD,survival,replicate-level proportion surviving life stage,0.82,proportion,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,juvenile,female,24.9,Celsius,incubator,24.9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females that suvived per experimental unit from an initial number of n=15,TRUE,01/01/2020
NA,FTTD,survival,replicate-level proportion surviving life stage,0.8,proportion,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,juvenile,female,24.9,Celsius,incubator,24.9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females that suvived per experimental unit from an initial number of n=15,TRUE,01/01/2020
NA,FTTD,survival,replicate-level proportion surviving life stage,0.73,proportion,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,juvenile,female,24.9,Celsius,incubator,24.9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females that suvived per experimental unit from an initial number of n=15,TRUE,01/01/2020
NA,FTTD,survival,replicate-level proportion surviving life stage,1,proportion,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,juvenile,female,31.02,Celsius,incubator,31.02,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females that suvived per experimental unit from an initial number of n=15,TRUE,01/01/2020
NA,FTTD,survival,replicate-level proportion surviving life stage,0.75,proportion,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,juvenile,female,31.02,Celsius,incubator,31.02,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females that suvived per experimental unit from an initial number of n=15,TRUE,01/01/2020
NA,FTTD,survival,replicate-level proportion surviving life stage,0.56,proportion,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,juvenile,female,31.02,Celsius,incubator,31.02,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females that suvived per experimental unit from an initial number of n=15,TRUE,01/01/2020
NA,FTTD,survival,replicate-level proportion surviving life stage,0.5,proportion,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,juvenile,female,31.02,Celsius,incubator,31.02,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females that suvived per experimental unit from an initial number of n=15,TRUE,01/01/2020
NA,FTTD,survival,replicate-level proportion surviving life stage,0.48,proportion,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,juvenile,female,31.02,Celsius,incubator,31.02,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females that suvived per experimental unit from an initial number of n=15,TRUE,01/01/2020
NA,FTTD,survival,replicate-level proportion surviving life stage,0.44,proportion,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,juvenile,female,31.02,Celsius,incubator,31.02,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females that suvived per experimental unit from an initial number of n=15,TRUE,01/01/2020
NA,DM01,survival,percentage surviving life stage,69,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Resistencia Argentina,field,NA,0,decimal,-27.450217,-58.99277,Aedes aegypti,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,14,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived life stage from an intial number of 26,TRUE,01/01/2022
NA,DM01,survival,percentage surviving life stage,87,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Ciudad Autonoma de Buenos Aires Argentina,field,NA,0,decimal,-34.603683,-58.38156,Aedes aegypti,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,14,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived life stage from an intial number of 30,TRUE,01/01/2022
NA,DM01,survival,percentage surviving life stage,80,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,San Bernardo del Tuyu Argentina,field,NA,0,decimal,-36.686367,-56.679167,Aedes aegypti,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,14,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived life stage from an intial number of 30,TRUE,01/01/2022
NA,DM01,survival,percentage surviving life stage,92,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Resistencia Argentina,field,NA,0,decimal,-27.450217,-58.99277,Aedes aegypti,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,18.5,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived life stage from an intial number of 26,TRUE,01/01/2022
NA,DM01,survival,percentage surviving life stage,97,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Ciudad Autonoma de Buenos Aires Argentina,field,NA,0,decimal,-34.603683,-58.38156,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,18.5,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived life stage from an intial number of 30,TRUE,01/01/2022
NA,DM01,survival,percentage surviving life stage,93,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,San Bernardo del Tuyu Argentina,field,NA,0,decimal,-36.686367,-56.679167,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,18.5,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived life stage from an intial number of 30,TRUE,01/01/2022
NA,DM01,survival,percentage surviving life stage,88,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Resistencia Argentina,field,NA,0,decimal,-27.450217,-58.99277,Aedes aegypti,NA,NA,NA,22,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,24,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived life stage from an intial number of 25,TRUE,01/01/2022
NA,DM01,survival,percentage surviving life stage,97,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Ciudad Autonoma de Buenos Aires Argentina,field,NA,0,decimal,-34.603683,-58.38156,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,24,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived life stage from an intial number of 30,TRUE,01/01/2022
NA,DM01,survival,percentage surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,San Bernardo del Tuyu Argentina,field,NA,0,decimal,-36.686367,-56.679167,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,24,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived life stage from an intial number of 30,TRUE,01/01/2022
NA,SSA207,development rate,mean rate of life stage completion,0.124,days-1,0.009,0.009,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,39,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,28,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA207,development rate,mean rate of life stage completion,0.131,days-1,0.014,0.014,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,70,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA207,development rate,mean rate of life stage completion,0.151,days-1,0.017,0.017,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,51,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA207,development rate,mean rate of life stage completion,0.112,days-1,0.016,0.016,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,49,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA207,development rate,mean rate of life stage completion,0.132,days-1,0.014,0.014,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,54,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA207,development rate,mean rate of life stage completion,0.122,days-1,0.013,0.013,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,40,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,61,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA207,development rate,mean rate of life stage completion,0.115,days-1,0.021,0.021,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,35,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA207,development rate,mean rate of life stage completion,0.12,days-1,0.013,0.013,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA207,development rate,mean rate of life stage completion,0.115,days-1,0.01,0.01,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,60,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,37,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA207,development rate,mean rate of life stage completion,0.118,days-1,0.025,0.025,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,100,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,38,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA207,development rate,mean rate of life stage completion,0.114,days-1,0.019,0.019,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,500,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,39,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,SSA207,development rate,mean rate of life stage completion,0.087,days-1,0.005,0.005,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,900,lux,relative humidity,water vapor pressure compared to max possible,80,percent,NA,NA,NA,NA,NA,Panyu Guangzhou China,field (F1),NA,0,decimal,23.03779103,113.2002934,Aedes albopictus,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,40,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Cai et al 2023. Effects of temperature relative humidity and illumination on the entomological parameters of Aedes albopictus: an experimental study. Int. J. Biometeorol. 67,10.1007/s00484-023-02446-y,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2023
NA,CAL001,development time,median duration of incubation period,38.38,days,6.25,6.25,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,132,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Calado and Navarro-Silva. 2002. Avaliacao da influencia da temperatura sobre o desenvolvimento de Aedes albopictus  Revista de Saude Publica. 36:2,10.1590/S0034-89102002000200009,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2002
NA,CAL001,development time,median duration of incubation period,19.09,days,5.7,5.7,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,164,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Calado and Navarro-Silva. 2002. Avaliacao da influencia da temperatura sobre o desenvolvimento de Aedes albopictus  Revista de Saude Publica. 36:2,10.1590/S0034-89102002000200009,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2002
NA,CAL001,development time,median duration of incubation period,13.1,days,8.37,8.37,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,147,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Calado and Navarro-Silva. 2002. Avaliacao da influencia da temperatura sobre o desenvolvimento de Aedes albopictus  Revista de Saude Publica. 36:2,10.1590/S0034-89102002000200009,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2002
NA,CAL001,development time,median duration of incubation period,10.44,days,6.18,6.18,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,160,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Calado and Navarro-Silva. 2002. Avaliacao da influencia da temperatura sobre o desenvolvimento de Aedes albopictus  Revista de Saude Publica. 36:2,10.1590/S0034-89102002000200009,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2002
NA,CAL003,development time,median duration of life stage,7.4,days,1.34,1.34,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,132,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Calado and Navarro-Silva. 2002. Avaliacao da influencia da temperatura sobre o desenvolvimento de Aedes albopictus  Revista de Saude Publica. 36:2,10.1590/S0034-89102002000200009,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2002
NA,CAL003,development time,median duration of life stage,3.42,days,0.46,0.46,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,164,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Calado and Navarro-Silva. 2002. Avaliacao da influencia da temperatura sobre o desenvolvimento de Aedes albopictus  Revista de Saude Publica. 36:2,10.1590/S0034-89102002000200009,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2002
NA,DM01,body size,average length of the left and right wings,3.04,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Resistencia Argentina,field,NA,0,decimal,-27.450217,-58.99277,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,14,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM01,body size,average length of the left and right wings,2.91,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Ciudad Autonoma de Buenos Aires Argentina,field,NA,0,decimal,-34.603683,-58.38156,Aedes aegypti,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,14,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM01,body size,average length of the left and right wings,3,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,San Bernardo del Tuyu Argentina,field,NA,0,decimal,-36.686367,-56.679167,Aedes aegypti,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,14,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM01,body size,average length of the left and right wings,2.79,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Resistencia Argentina,field,NA,0,decimal,-27.450217,-58.99277,Aedes aegypti,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18.5,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM01,body size,average length of the left and right wings,2.67,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Ciudad Autonoma de Buenos Aires Argentina,field,NA,0,decimal,-34.603683,-58.38156,Aedes aegypti,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18.5,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM01,body size,average length of the left and right wings,2.67,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,San Bernardo del Tuyu Argentina,field,NA,0,decimal,-36.686367,-56.679167,Aedes aegypti,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18.5,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM01,body size,average length of the left and right wings,2.31,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Resistencia Argentina,field,NA,0,decimal,-27.450217,-58.99277,Aedes aegypti,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM01,body size,average length of the left and right wings,2.3,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Ciudad Autonoma de Buenos Aires Argentina,field,NA,0,decimal,-34.603683,-58.38156,Aedes aegypti,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM01,body size,average length of the left and right wings,2.24,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,San Bernardo del Tuyu Argentina,field,NA,0,decimal,-36.686367,-56.679167,Aedes aegypti,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM01,body size,average length of the left and right wings,2.52,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Resistencia Argentina,field,NA,0,decimal,-27.450217,-58.99277,Aedes aegypti,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,14,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM01,body size,average length of the left and right wings,2.48,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Ciudad Autonoma de Buenos Aires Argentina,field,NA,0,decimal,-34.603683,-58.38156,Aedes aegypti,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,14,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM01,body size,average length of the left and right wings,2.5,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,San Bernardo del Tuyu Argentina,field,NA,0,decimal,-36.686367,-56.679167,Aedes aegypti,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,14,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM01,body size,average length of the left and right wings,2.25,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Resistencia Argentina,field,NA,0,decimal,-27.450217,-58.99277,Aedes aegypti,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,18.5,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM01,body size,average length of the left and right wings,2.2,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Ciudad Autonoma de Buenos Aires Argentina,field,NA,0,decimal,-34.603683,-58.38156,Aedes aegypti,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,18.5,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM01,body size,average length of the left and right wings,2.24,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,San Bernardo del Tuyu Argentina,field,NA,0,decimal,-36.686367,-56.679167,Aedes aegypti,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,18.5,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM01,body size,average length of the left and right wings,1.95,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Resistencia Argentina,field,NA,0,decimal,-27.450217,-58.99277,Aedes aegypti,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,24,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM01,body size,average length of the left and right wings,1.97,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Ciudad Autonoma de Buenos Aires Argentina,field,NA,0,decimal,-34.603683,-58.38156,Aedes aegypti,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,24,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM01,body size,average length of the left and right wings,1.95,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,San Bernardo del Tuyu Argentina,field,NA,0,decimal,-36.686367,-56.679167,Aedes aegypti,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,24,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,CAL003,development time,median duration of life stage,2,days,0,0,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,147,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Calado and Navarro-Silva. 2002. Avaliacao da influencia da temperatura sobre o desenvolvimento de Aedes albopictus  Revista de Saude Publica. 36:2,10.1590/S0034-89102002000200009,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2002
NA,CAL003,development time,median duration of life stage,1.92,days,0.18,0.18,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,160,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Calado and Navarro-Silva. 2002. Avaliacao da influencia da temperatura sobre o desenvolvimento de Aedes albopictus  Revista de Saude Publica. 36:2,10.1590/S0034-89102002000200009,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2002
NA,CAL004,development time,median duration of life stage,12.26,days,2.31,2.31,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,132,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 and L2,NA,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Calado and Navarro-Silva. 2002. Avaliacao da influencia da temperatura sobre o desenvolvimento de Aedes albopictus  Revista de Saude Publica. 36:2,10.1590/S0034-89102002000200009,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2002
NA,CAL004,development time,median duration of life stage,5.78,days,0.68,0.68,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,164,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 and L2,NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Calado and Navarro-Silva. 2002. Avaliacao da influencia da temperatura sobre o desenvolvimento de Aedes albopictus  Revista de Saude Publica. 36:2,10.1590/S0034-89102002000200009,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2002
NA,CAL004,development time,median duration of life stage,3.13,days,0.34,0.34,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,147,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 and L2,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Calado and Navarro-Silva. 2002. Avaliacao da influencia da temperatura sobre o desenvolvimento de Aedes albopictus  Revista de Saude Publica. 36:2,10.1590/S0034-89102002000200009,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2002
NA,CAL004,development time,median duration of life stage,2.57,days,0.74,0.74,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,160,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 and L2,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Calado and Navarro-Silva. 2002. Avaliacao da influencia da temperatura sobre o desenvolvimento de Aedes albopictus  Revista de Saude Publica. 36:2,10.1590/S0034-89102002000200009,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2002
NA,CAL005,development time,median duration of life stage,18.48,days,3.45,3.45,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,132,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to L3,NA,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Calado and Navarro-Silva. 2002. Avaliacao da influencia da temperatura sobre o desenvolvimento de Aedes albopictus  Revista de Saude Publica. 36:2,10.1590/S0034-89102002000200009,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2002
NA,CAL005,development time,median duration of life stage,8.6,days,1.12,1.12,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,164,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to L3,NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Calado and Navarro-Silva. 2002. Avaliacao da influencia da temperatura sobre o desenvolvimento de Aedes albopictus  Revista de Saude Publica. 36:2,10.1590/S0034-89102002000200009,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2002
NA,CAL005,development time,median duration of life stage,4.44,days,0.82,0.82,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,147,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to L3,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Calado and Navarro-Silva. 2002. Avaliacao da influencia da temperatura sobre o desenvolvimento de Aedes albopictus  Revista de Saude Publica. 36:2,10.1590/S0034-89102002000200009,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2002
NA,CAL005,development time,median duration of life stage,3.54,days,0.79,0.79,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,160,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to L3,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Calado and Navarro-Silva. 2002. Avaliacao da influencia da temperatura sobre o desenvolvimento de Aedes albopictus  Revista de Saude Publica. 36:2,10.1590/S0034-89102002000200009,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2002
NA,CAL006,development time,median duration of life stage,31.67,days,5.03,5.03,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,132,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to L4,NA,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Calado and Navarro-Silva. 2002. Avaliacao da influencia da temperatura sobre o desenvolvimento de Aedes albopictus  Revista de Saude Publica. 36:2,10.1590/S0034-89102002000200009,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2002
NA,CAL006,development time,median duration of life stage,14.48,days,1.65,1.65,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,164,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to L4,NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Calado and Navarro-Silva. 2002. Avaliacao da influencia da temperatura sobre o desenvolvimento de Aedes albopictus  Revista de Saude Publica. 36:2,10.1590/S0034-89102002000200009,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2002
NA,CAL006,development time,median duration of life stage,7.67,days,0.91,0.91,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,147,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to L4,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Calado and Navarro-Silva. 2002. Avaliacao da influencia da temperatura sobre o desenvolvimento de Aedes albopictus  Revista de Saude Publica. 36:2,10.1590/S0034-89102002000200009,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2002
NA,CAL006,development time,median duration of life stage,5.86,days,1.41,1.41,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,160,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to L4,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Calado and Navarro-Silva. 2002. Avaliacao da influencia da temperatura sobre o desenvolvimento de Aedes albopictus  Revista de Saude Publica. 36:2,10.1590/S0034-89102002000200009,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2002
NA,CAL007,development time,median duration of life stage,8.02,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,male,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Calado and Navarro-Silva. 2002. Avaliacao da influencia da temperatura sobre o desenvolvimento de Aedes albopictus  Revista de Saude Publica. 36:2,10.1590/S0034-89102002000200009,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2002
NA,CAL007,development time,median duration of life stage,4.91,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,male,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Calado and Navarro-Silva. 2002. Avaliacao da influencia da temperatura sobre o desenvolvimento de Aedes albopictus  Revista de Saude Publica. 36:2,10.1590/S0034-89102002000200009,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2002
NA,CAL007,development time,median duration of life stage,2.41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,male,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Calado and Navarro-Silva. 2002. Avaliacao da influencia da temperatura sobre o desenvolvimento de Aedes albopictus  Revista de Saude Publica. 36:2,10.1590/S0034-89102002000200009,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2002
NA,CAL007,development time,median duration of life stage,1.75,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,male,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Calado and Navarro-Silva. 2002. Avaliacao da influencia da temperatura sobre o desenvolvimento de Aedes albopictus  Revista de Saude Publica. 36:2,10.1590/S0034-89102002000200009,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2002
NA,CAL007,development time,median duration of life stage,8.2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,female,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Calado and Navarro-Silva. 2002. Avaliacao da influencia da temperatura sobre o desenvolvimento de Aedes albopictus  Revista de Saude Publica. 36:2,10.1590/S0034-89102002000200009,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2002
NA,CAL007,development time,median duration of life stage,5.14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,female,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Calado and Navarro-Silva. 2002. Avaliacao da influencia da temperatura sobre o desenvolvimento de Aedes albopictus  Revista de Saude Publica. 36:2,10.1590/S0034-89102002000200009,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2002
NA,CAL007,development time,median duration of life stage,2.63,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Calado and Navarro-Silva. 2002. Avaliacao da influencia da temperatura sobre o desenvolvimento de Aedes albopictus  Revista de Saude Publica. 36:2,10.1590/S0034-89102002000200009,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2002
NA,CAL007,development time,median duration of life stage,1.91,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Calado and Navarro-Silva. 2002. Avaliacao da influencia da temperatura sobre o desenvolvimento de Aedes albopictus  Revista de Saude Publica. 36:2,10.1590/S0034-89102002000200009,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2002
NA,CAL008,development time,median duration of life stage,30.16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,male,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Calado and Navarro-Silva. 2002. Avaliacao da influencia da temperatura sobre o desenvolvimento de Aedes albopictus  Revista de Saude Publica. 36:2,10.1590/S0034-89102002000200009,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2002
NA,CAL008,development time,median duration of life stage,13.9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,male,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Calado and Navarro-Silva. 2002. Avaliacao da influencia da temperatura sobre o desenvolvimento de Aedes albopictus  Revista de Saude Publica. 36:2,10.1590/S0034-89102002000200009,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2002
NA,CAL008,development time,median duration of life stage,7.41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,male,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Calado and Navarro-Silva. 2002. Avaliacao da influencia da temperatura sobre o desenvolvimento de Aedes albopictus  Revista de Saude Publica. 36:2,10.1590/S0034-89102002000200009,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2002
NA,CAL008,development time,median duration of life stage,5.46,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,male,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Calado and Navarro-Silva. 2002. Avaliacao da influencia da temperatura sobre o desenvolvimento de Aedes albopictus  Revista de Saude Publica. 36:2,10.1590/S0034-89102002000200009,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2002
NA,CAL008,development time,median duration of life stage,33.15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,female,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Calado and Navarro-Silva. 2002. Avaliacao da influencia da temperatura sobre o desenvolvimento de Aedes albopictus  Revista de Saude Publica. 36:2,10.1590/S0034-89102002000200009,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2002
NA,CAL008,development time,median duration of life stage,15.03,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,female,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Calado and Navarro-Silva. 2002. Avaliacao da influencia da temperatura sobre o desenvolvimento de Aedes albopictus  Revista de Saude Publica. 36:2,10.1590/S0034-89102002000200009,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2002
NA,CAL008,development time,median duration of life stage,8.24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Calado and Navarro-Silva. 2002. Avaliacao da influencia da temperatura sobre o desenvolvimento de Aedes albopictus  Revista de Saude Publica. 36:2,10.1590/S0034-89102002000200009,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2002
NA,CAL008,development time,median duration of life stage,6.28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Calado and Navarro-Silva. 2002. Avaliacao da influencia da temperatura sobre o desenvolvimento de Aedes albopictus  Revista de Saude Publica. 36:2,10.1590/S0034-89102002000200009,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2002
NA,CAL008,development time,median duration of life stage,38.18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Calado and Navarro-Silva. 2002. Avaliacao da influencia da temperatura sobre o desenvolvimento de Aedes albopictus  Revista de Saude Publica. 36:2,10.1590/S0034-89102002000200009,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2002
NA,CAL008,development time,median duration of life stage,18.81,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Calado and Navarro-Silva. 2002. Avaliacao da influencia da temperatura sobre o desenvolvimento de Aedes albopictus  Revista de Saude Publica. 36:2,10.1590/S0034-89102002000200009,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2002
NA,CAL008,development time,median duration of life stage,9.82,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Calado and Navarro-Silva. 2002. Avaliacao da influencia da temperatura sobre o desenvolvimento de Aedes albopictus  Revista de Saude Publica. 36:2,10.1590/S0034-89102002000200009,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2002
NA,CAL008,development time,median duration of life stage,7.21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Calado and Navarro-Silva. 2002. Avaliacao da influencia da temperatura sobre o desenvolvimento de Aedes albopictus  Revista de Saude Publica. 36:2,10.1590/S0034-89102002000200009,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2002
NA,CAL008,development time,median duration of life stage,41.35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Calado and Navarro-Silva. 2002. Avaliacao da influencia da temperatura sobre o desenvolvimento de Aedes albopictus  Revista de Saude Publica. 36:2,10.1590/S0034-89102002000200009,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2002
NA,CAL008,development time,median duration of life stage,20.17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Calado and Navarro-Silva. 2002. Avaliacao da influencia da temperatura sobre o desenvolvimento de Aedes albopictus  Revista de Saude Publica. 36:2,10.1590/S0034-89102002000200009,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2002
NA,CAL008,development time,median duration of life stage,10.87,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Calado and Navarro-Silva. 2002. Avaliacao da influencia da temperatura sobre o desenvolvimento de Aedes albopictus  Revista de Saude Publica. 36:2,10.1590/S0034-89102002000200009,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2002
NA,CAL008,development time,median duration of life stage,8.19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Registro Brazil,field,01/03/1999,4,decimal,-24.25840066,-47.37176846,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Calado and Navarro-Silva. 2002. Avaliacao da influencia da temperatura sobre o desenvolvimento de Aedes albopictus  Revista de Saude Publica. 36:2,10.1590/S0034-89102002000200009,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2002
NA,NA,development time,individual-level duration of life stage,29.51,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,16.84,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,19.71,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,20.4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,22.68,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,22.68,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,22.68,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,22.68,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,22.68,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,22.68,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,22.68,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,22.68,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,22.78,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,22.68,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,22.68,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,PHX212,survival,percentage surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,10,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from an intial number of 120,TRUE,01/01/2009
NA,PHX212,survival,percentage surviving life stage,50,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,15,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from an intial number of 80,TRUE,01/01/2009
NA,PHX212,survival,percentage surviving life stage,77.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,62,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,20,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from an intial number of 80,TRUE,01/01/2009
NA,PHX212,survival,percentage surviving life stage,76.3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,61,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,25,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from an intial number of 80,TRUE,01/01/2009
NA,PHX212,survival,percentage surviving life stage,67.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,54,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,30,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from an intial number of 80,TRUE,01/01/2009
NA,PHX212,survival,percentage surviving life stage,2.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,35,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from an intial number of 80,TRUE,01/01/2009
NA,PHX212,survival,percentage surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,40,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from an intial number of 120,TRUE,01/01/2009
NA,PHX213,pre-bloodmeal period,average duration from emergence to first blood meal,15,days,1.94,1.94,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,15,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX213,pre-bloodmeal period,average duration from emergence to first blood meal,5.39,days,0.62,0.62,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX213,pre-bloodmeal period,average duration from emergence to first blood meal,5.54,days,0.82,0.82,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX213,pre-bloodmeal period,average duration from emergence to first blood meal,4.17,days,0.64,0.64,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX213,pre-bloodmeal period,average duration from emergence to first blood meal,10.83,days,2.92,2.92,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,35,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX214,fecundity,mean number of eggs per cycle,50.8,eggs individual-1 cycle-1,6.76,6.76,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 6,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX214,fecundity,mean number of eggs per cycle,65.3,eggs individual-1 cycle-1,3.62,3.62,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 6,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX214,fecundity,mean number of eggs per cycle,74.2,eggs individual-1 cycle-1,4.12,4.12,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,21,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 6,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX214,fecundity,mean number of eggs per cycle,48.7,eggs individual-1 cycle-1,8.32,8.32,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,35,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 6,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX215,gonotrophic cycle,mean duration of gonotrophic cycle,8.1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX215,gonotrophic cycle,mean duration of gonotrophic cycle,4.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX215,gonotrophic cycle,mean duration of gonotrophic cycle,3.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX215,gonotrophic cycle,mean duration of gonotrophic cycle,4.4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,35,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX212,survival,percent surviving life stage,4.4,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,5,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX212,survival,percent surviving life stage,4,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,10,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX212,survival,percent surviving life stage,8.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,110,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,15,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX212,survival,percent surviving life stage,66.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,130,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,20,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX212,survival,percent surviving life stage,49.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,130,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,25,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX212,survival,percent surviving life stage,51.4,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,140,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,30,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX212,survival,percent surviving life stage,10,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,190,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,35,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX212,survival,percent surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,40,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX212,survival,percent surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,80,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,5,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX212,survival,percent surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,80,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,10,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX212,survival,percent surviving life stage,88.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,80,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,15,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX212,survival,percent surviving life stage,96.3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,80,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,20,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX212,survival,percent surviving life stage,92.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,80,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,25,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX212,survival,percent surviving life stage,87.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,80,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,30,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX212,survival,percent surviving life stage,92.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,35,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX212,survival,percent surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,80,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,40,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX212,survival,percent surviving life stage,93,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,80,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,15,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX212,survival,percent surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,80,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,20,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX212,survival,percent surviving life stage,94.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,80,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,25,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX212,survival,percent surviving life stage,98.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,80,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,30,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX212,survival,percent surviving life stage,83.3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,35,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX212,survival,percent surviving life stage,86.4,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,80,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,15,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX212,survival,percent surviving life stage,92.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,80,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,20,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX212,survival,percent surviving life stage,95.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,80,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,25,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX212,survival,percent surviving life stage,95.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,80,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,30,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX212,survival,percent surviving life stage,77.4,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,35,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX212,survival,percent surviving life stage,84.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,80,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,15,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX212,survival,percent surviving life stage,97.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,80,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,20,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX212,survival,percent surviving life stage,97,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,80,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,25,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX212,survival,percent surviving life stage,90.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,80,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,30,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX212,survival,percent surviving life stage,50,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,35,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX212,survival,percent surviving life stage,83.3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,80,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,15,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX212,survival,percent surviving life stage,89.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,80,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,20,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX212,survival,percent surviving life stage,93.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,80,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,25,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX212,survival,percent surviving life stage,90,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,80,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,30,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX212,survival,percent surviving life stage,8.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,35,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,NA,development time,individual-level duration of life stage,22.68,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,22.68,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,22.68,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,22.68,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,23.47,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,23.47,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,23.57,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,23.57,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,23.67,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,6.63,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,7.62,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,7.62,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,8.21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,8.21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,8.21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,8.21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,8.21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,8.21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,8.21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,8.21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,8.21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,8.21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,8.21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,8.21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,8.21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,8.21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,8.21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,8.21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,8.21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,8.21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,8.11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,10.49,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,PHX215,gonotrophic cycle,mean number of gonotrophic cycles completed in individuals lifetime,1.7,days,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX215,gonotrophic cycle,mean number of gonotrophic cycles completed in individuals lifetime,3.1,days,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX215,gonotrophic cycle,mean number of gonotrophic cycles completed in individuals lifetime,3.9,days,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX215,gonotrophic cycle,mean number of gonotrophic cycles completed in individuals lifetime,1.3,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,35,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,DIC001,survival,percent hatching,60.02,percent,1.07,1.07,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brownsville Texas USA,field,NA,0,decimal,25.930278,-97.484444,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,15,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC001,survival,percent hatching,76.74,percent,1.07,1.07,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brownsville Texas USA,field,NA,0,decimal,25.930278,-97.484444,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC001,survival,percent hatching,81.88,percent,1.07,1.07,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brownsville Texas USA,field,NA,0,decimal,25.930278,-97.484444,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC001,survival,percent hatching,58.47,percent,1.07,1.07,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brownsville Texas USA,field,NA,0,decimal,25.930278,-97.484444,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC001,survival,percent hatching,59.89,percent,1.07,1.07,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brownsville Texas USA,field,NA,0,decimal,25.930278,-97.484444,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC001,survival,percent hatching,52.56,percent,1,1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McAllen Texas USA,field,NA,0,decimal,26.216389,-98.236389,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,15,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC001,survival,percent hatching,76.91,percent,1,1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McAllen Texas USA,field,NA,0,decimal,26.216389,-98.236389,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC001,survival,percent hatching,69.5,percent,1,1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McAllen Texas USA,field,NA,0,decimal,26.216389,-98.236389,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC001,survival,percent hatching,50.53,percent,1,1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McAllen Texas USA,field,NA,0,decimal,26.216389,-98.236389,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC001,survival,percent hatching,55.02,percent,1,1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McAllen Texas USA,field,NA,0,decimal,26.216389,-98.236389,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC001,survival,percent hatching,53.68,percent,0.92,0.92,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bryan and College Station Texas USA,colony,NA,0,decimal,30.674444,-96.37,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,15,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC001,survival,percent hatching,71.89,percent,0.92,0.92,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bryan and College Station Texas USA,colony,NA,0,decimal,30.674444,-96.37,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC001,survival,percent hatching,70.11,percent,0.92,0.92,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bryan and College Station Texas USA,colony,NA,0,decimal,30.674444,-96.37,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC001,survival,percent hatching,48.69,percent,0.92,0.92,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bryan and College Station Texas USA,colony,NA,0,decimal,30.674444,-96.37,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC001,survival,percent hatching,41.27,percent,0.92,0.92,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bryan and College Station Texas USA,colony,NA,0,decimal,30.674444,-96.37,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC001,survival,percent hatching,60.59,percent,0.76,0.76,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brownsville Texas USA,field,NA,0,decimal,25.930278,-97.484444,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,15,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC001,survival,percent hatching,75.02,percent,0.76,0.76,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brownsville Texas USA,field,NA,0,decimal,25.930278,-97.484444,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,21,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC001,survival,percent hatching,87.34,percent,0.76,0.76,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brownsville Texas USA,field,NA,0,decimal,25.930278,-97.484444,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC001,survival,percent hatching,68.66,percent,0.76,0.76,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brownsville Texas USA,field,NA,0,decimal,25.930278,-97.484444,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC001,survival,percent hatching,60.23,percent,0.76,0.76,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Brownsville Texas USA,field,NA,0,decimal,25.930278,-97.484444,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC001,survival,percent hatching,62.06,percent,0.79,0.79,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McAllen Texas USA,field,NA,0,decimal,26.216389,-98.236389,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,15,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC001,survival,percent hatching,77.62,percent,0.71,0.71,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McAllen Texas USA,field,NA,0,decimal,26.216389,-98.236389,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,21,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC001,survival,percent hatching,90.45,percent,0.77,0.77,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McAllen Texas USA,field,NA,0,decimal,26.216389,-98.236389,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC001,survival,percent hatching,64.61,percent,0.71,0.71,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McAllen Texas USA,field,NA,0,decimal,26.216389,-98.236389,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC001,survival,percent hatching,58.36,percent,0.71,0.71,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McAllen Texas USA,field,NA,0,decimal,26.216389,-98.236389,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC001,survival,percent hatching,56.81,percent,0.75,0.75,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,15,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC001,survival,percent hatching,84.2,percent,0.75,0.75,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,21,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC001,survival,percent hatching,83.7,percent,0.75,0.75,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC001,survival,percent hatching,66.93,percent,0.75,0.75,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC001,survival,percent hatching,65.03,percent,0.75,0.75,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,NA,development time,individual-level duration of life stage,11.08,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,6.82,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,6.53,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,6.33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,8.04,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,8.04,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,8.04,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,7.94,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,7.84,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,8.14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,8.14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,8.14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,8.14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,8.63,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,8.63,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,8.63,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,7.54,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,7.84,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,7.84,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,8.04,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,8.04,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,7.84,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,7.84,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,8.44,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,7.64,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,9.92,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,19.29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,21.97,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,21.97,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,22.17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,23.65,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,23.65,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,23.65,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,23.65,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,23.65,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,23.65,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,23.65,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,23.65,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,23.55,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,23.65,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,23.75,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,23.75,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),15.66,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/06/2017,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/06/2017,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),17.39,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/06/2017,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/06/2017,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),12.14,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/06/2017,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/06/2017,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),13.21,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/06/2017,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/06/2017,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),10.75,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/06/2017,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/06/2017,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),4.64,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/06/2017,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/06/2017,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),15.13,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/06/2017,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/06/2017,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),6.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/06/2017,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/06/2017,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),4.38,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/06/2017,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/06/2017,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),16.72,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/06/2017,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/06/2017,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),11.59,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/06/2017,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/06/2017,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),8.27,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/06/2017,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/06/2017,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),16.77,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/06/2017,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/06/2017,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),5.96,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/06/2017,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/06/2017,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),6.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/06/2017,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/06/2017,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),16.91,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/06/2017,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/06/2017,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),9.24,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/06/2017,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/06/2017,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),7.85,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/06/2017,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/06/2017,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),8.08,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/06/2017,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/06/2017,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),6.56,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/06/2017,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/06/2017,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),2.36,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/06/2017,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/06/2017,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),5.38,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/06/2017,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/06/2017,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),5.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/06/2017,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/06/2017,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),2.89,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/06/2017,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/06/2017,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),7.99,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/06/2017,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/06/2017,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),6.99,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/06/2017,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/06/2017,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),2.58,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/06/2017,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/06/2017,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),7.49,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/06/2017,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),6.62,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/06/2017,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),3.29,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/06/2017,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),5.97,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/06/2017,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),6.59,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/06/2017,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),3.02,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/06/2017,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),8.86,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/06/2017,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),6.09,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/06/2017,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),3.64,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/06/2017,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),8.22,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/06/2017,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/06/2017,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),8.3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,406,metres,01/06/2017,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/06/2017,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),3.63,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,407,metres,01/06/2017,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/06/2017,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),4.15,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,408,metres,01/06/2017,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/06/2017,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),4.05,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,409,metres,01/06/2017,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/06/2017,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),3.61,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,410,metres,01/06/2017,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/06/2017,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),6.52,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,411,metres,01/06/2017,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/06/2017,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),6.98,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,412,metres,01/06/2017,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/06/2017,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),4.44,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,413,metres,01/06/2017,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/06/2017,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),5.08,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/06/2017,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),7.32,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/06/2017,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),3.29,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/06/2017,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),6.64,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/06/2017,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),6.41,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/06/2017,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),2.72,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/06/2017,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),7.47,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/06/2017,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),7.66,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/06/2017,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),3.51,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/06/2017,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to pharate larval,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),38.09,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/06/2017,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/06/2017,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),37.37,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/06/2017,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/06/2017,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/06/2017,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/06/2017,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),50.44,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/06/2017,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/06/2017,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),51.19,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/06/2017,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/06/2017,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),3.57,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/06/2017,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/06/2017,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),34.13,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/06/2017,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/06/2017,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),63.88,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/06/2017,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/06/2017,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),8.63,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/06/2017,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/06/2017,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),35.33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/06/2017,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/06/2017,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),56.75,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/06/2017,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/06/2017,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/06/2017,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/06/2017,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),42.3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/06/2017,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/06/2017,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),70.82,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/06/2017,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/06/2017,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/06/2017,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/06/2017,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),35.42,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/06/2017,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/06/2017,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),62.05,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/06/2017,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/06/2017,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),2.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/06/2017,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/06/2017,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),23.51,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/06/2017,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/06/2017,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),20.82,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/06/2017,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/06/2017,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),26.27,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/06/2017,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/06/2017,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),11.78,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/06/2017,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/06/2017,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),28.35,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/06/2017,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/06/2017,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),27.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/06/2017,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/06/2017,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),15.23,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/06/2017,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/06/2017,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),31.47,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/06/2017,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/06/2017,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),26.78,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/06/2017,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/06/2017,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),20.43,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/06/2017,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),29.11,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/06/2017,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),9.17,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/06/2017,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),20.21,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/06/2017,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),21.42,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/06/2017,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),12.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/06/2017,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),23.77,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/06/2017,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),33.47,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/06/2017,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),11.76,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/06/2017,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),27.56,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/06/2017,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/06/2017,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),19.81,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,406,metres,01/06/2017,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/06/2017,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,407,metres,01/06/2017,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/06/2017,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),52.72,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,408,metres,01/06/2017,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/06/2017,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),50,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,409,metres,01/06/2017,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/06/2017,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,410,metres,01/06/2017,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/06/2017,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),21.04,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,411,metres,01/06/2017,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/06/2017,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),27.61,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,412,metres,01/06/2017,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/06/2017,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),1.11,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,413,metres,01/06/2017,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/06/2017,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),39.25,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/06/2017,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),28.18,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/06/2017,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),3.3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/06/2017,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),33.05,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/06/2017,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),22.91,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/06/2017,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),1.11,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/06/2017,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),26.41,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/06/2017,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),33.37,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/06/2017,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),1.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/06/2017,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,22,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/06/2017,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/06/2017,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,22,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/06/2017,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/06/2017,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,0,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/06/2017,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/06/2017,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,28,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/06/2017,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/06/2017,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,26,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/06/2017,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/06/2017,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,2,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/06/2017,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/06/2017,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,23,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/06/2017,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/06/2017,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,27,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/06/2017,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/06/2017,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,2,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/06/2017,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/06/2017,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,23,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/06/2017,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/06/2017,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,27,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/06/2017,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/06/2017,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,0,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/06/2017,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/06/2017,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,27,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/06/2017,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/06/2017,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,29,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/06/2017,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/06/2017,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,0,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/06/2017,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/06/2017,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,25,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/06/2017,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/06/2017,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,29,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/06/2017,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/06/2017,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,3,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/06/2017,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/06/2017,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,15,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/06/2017,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/06/2017,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,21,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/06/2017,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/06/2017,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,10,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/06/2017,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/06/2017,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,10,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/06/2017,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/06/2017,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,21,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/06/2017,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/06/2017,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,15,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/06/2017,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/06/2017,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,18,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/06/2017,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/06/2017,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,20,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/06/2017,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/06/2017,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,12,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/06/2017,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/06/2017,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,19,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/06/2017,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,19,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/06/2017,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,6,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/06/2017,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,14,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/06/2017,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,19,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/06/2017,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,10,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/06/2017,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,19,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/06/2017,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,21,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/06/2017,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,8,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/06/2017,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,22,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/06/2017,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/06/2017,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,24,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,406,metres,01/06/2017,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/06/2017,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,0,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,407,metres,01/06/2017,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/06/2017,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,28,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,408,metres,01/06/2017,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/06/2017,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,26,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,409,metres,01/06/2017,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/06/2017,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,0,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,410,metres,01/06/2017,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/06/2017,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,21,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,411,metres,01/06/2017,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/06/2017,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,28,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,412,metres,01/06/2017,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/06/2017,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,1,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,413,metres,01/06/2017,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/06/2017,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,24,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/06/2017,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,21,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/06/2017,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,6,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/06/2017,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,21,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/06/2017,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,17,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/06/2017,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,1,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/06/2017,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,20,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/06/2017,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,25,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/06/2017,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED01,fertility,number of F1 egg cohorts that produced surviving larvae,4,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/06/2017,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/06/2017,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),20.07,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),14.05,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),5.35,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),9.36,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),11.04,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),5.02,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),18.06,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),10.03,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),7.02,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),15.38,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),9.03,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),26.42,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),17.39,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),17.39,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),11.04,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),24.75,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),0.33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),20.26,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),10.53,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),9.74,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),3.68,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),12.11,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),10.79,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),17.89,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),2.89,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),12.11,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),21.37,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),2.75,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),7.65,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),11.76,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),15.29,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),13.14,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),10.78,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),7.06,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),10.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),19.36,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),5.45,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),7.89,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),8.83,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),8.46,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),11.84,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),20.86,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),6.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),11.09,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),10.71,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),4.89,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),1.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),14.66,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),15.23,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),9.96,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),23.68,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),15.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),9.4,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),15.01,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),11.38,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),6.54,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),9.44,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),11.38,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),10.65,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),17.43,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),11.14,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),7.02,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),26.63,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),10.84,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),2.79,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),1.24,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),9.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),9.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),15.79,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),15.17,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),8.36,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),20,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),21.69,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),1.45,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),17.11,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),9.16,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),5.3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),11.08,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),6.51,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),14.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),11.08,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),14.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),0.96,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),15.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),12.29,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),22.89,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),11.08,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),6.99,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),4.1,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),16.44,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),14.48,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),10.18,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),17.03,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),10.18,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),6.85,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),7.63,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),7.44,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),9.78,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),10.16,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),6.97,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),13.15,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),18.13,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),8.37,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),3.39,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),14.74,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),17.53,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage surviving to pharate larval stage (a subset of the pupal stage),7.57,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),41.68,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),40.11,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),35.53,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),66.62,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),46.88,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),49.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),39.52,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),73.37,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),15.61,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),47.59,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),27.18,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),20.22,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),25,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),27.48,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),47.88,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),3.13,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),79,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),54.26,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),32.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),82.65,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),16.31,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),63.92,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),11.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),31.13,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),21.28,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),38.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),49.48,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),4.17,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),32.89,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),60.23,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),9.75,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),57.38,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),34.16,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),30.78,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),74.72,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),2.78,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),42.02,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),46.81,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),17.82,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),9.98,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),5.16,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),32.32,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),0.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),14.89,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),37.83,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),56.92,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),51.71,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),0.78,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),15.68,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),47.24,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),12.35,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),55.59,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),8.33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),91.67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),46.23,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),36.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),29.46,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),8.52,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),21.04,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),4.43,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),17.82,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),39.41,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),52.46,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),42.42,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),59.17,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),26.19,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),44.33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),14.48,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),12.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),4.01,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),3.59,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),22.12,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),4.71,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),16.42,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),41.03,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),3.57,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),27.61,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),25,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),2.65,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),28.51,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),47.78,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),1.25,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),67.28,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),23.83,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),3.91,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,survival,percentage eggs hatching (hatched eggs divided by embryonated unhatched eggs plus hatched eggs multiplied by 100),1.47,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,4,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,3,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,0,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,3,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,4,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,0,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,4,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,3,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,0,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,3,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,4,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,0,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,3,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,4,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,0,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,2,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,4,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,1,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,4,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,4,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,3,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,4,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,4,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,0,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,3,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,4,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,0,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,1463,metres,01/03/2018,NA,NA,NA,NA,Luzon Baguio Philippines,field (F1),01/03/2018,4,decimal,16.402,120.596,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,3,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,3,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,2,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,3,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,4,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,0,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,4,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,4,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,1,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,67,metres,01/03/2018,NA,NA,NA,NA,Luzon Quezon Philippines,field (F1),01/03/2018,4,decimal,14.676,121.044,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,4,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,3,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,3,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,4,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,3,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,0,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,3,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,4,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,1,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,4,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,4,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,0,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,3,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,2,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,0,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,2,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,2,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,1,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,4,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,4,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,2,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,4,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,4,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,4,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,0,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,1,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,0,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,647,metres,01/03/2018,NA,NA,NA,NA,Visayas Cebu Philippines,field (F1),01/03/2018,4,decimal,10.317,123.891,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,3,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,4,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,4,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,4,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,2,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,4,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,1,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,0,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,2,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Visayas Liloan Philippines,field (F1),01/03/2018,4,decimal,10.4121,123.986,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,4,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,2,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,0,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,4,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,3,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,0,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,4,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,3,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,0,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,4,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,3,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,0,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,4,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,3,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,0,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,1,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,2,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,0,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,2,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,3,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,3,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,4,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,3,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,1,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,2,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,1,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,2,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,405,metres,01/03/2018,NA,NA,NA,NA,Mindanao Bukidnon Philippines,field (F1),01/03/2018,4,decimal,7.8592,125.0515,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,3,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,1,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,4,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,4,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,4,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,2,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,0,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,0,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,ED02,fertility,number of F1 egg cohorts that produced surviving larvae,1,F1 cohorts,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,metres above sea level,18,metres,01/03/2018,NA,NA,NA,NA,Mindanao CDO Philippines,field (F1),01/03/2018,4,decimal,8.454,124.632,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Edillo et al. 2022. Temperature season and latitude influence development-related phenotypes of Philippine Aedes aegypti (Linnaeus): Implications for dengue control amidst global warming. Parasites and Vectors 15:74,10.1186/s13071-022-05186-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing RH was 77% rearing photoperiod was 12:12,TRUE,01/01/2022
NA,NA,development time,individual-level duration of life stage,23.55,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,23.85,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,24.54,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,25.14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,25.24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,7.54,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,8.43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,8.43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,8.23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,8.83,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,8.83,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,8.63,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,8.23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,7.84,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,8.93,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,9.32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,9.62,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,9.62,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,9.82,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,9.72,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,10.71,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,6.91,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,7.4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,7.4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,9.38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,9.38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,9.38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,9.28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,9.48,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,9.58,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,8.98,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,9.18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,9.28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,9.28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,9.28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,9.28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,12.95,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,13.04,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,13.24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,13.24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,individual-level duration of life stage,13.04,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,JOE028,development time,mean duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,300,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,hatching-to-pupal,NA,12,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1A,Carrington et al. 2013. Effects of Fluctuating Daily Temperatures at Critical Thermal Extremes on Aedes aegypti Life-History Traits. PLoS ONE 8(3): e58824,10.1371/journal.pone.0058824,NA,NA,Joe Harrison,joeh24@vt.edu,trait value set to zero because complete mortality occurred at this temperature. interactor1number is an estimate of the number of individuals that survived interactor1stage from an initial number of around 330 (20 individuals per cup with 13 to 20 cups per temperature),TRUE,01/01/2013
NA,JOE028,development time,mean duration of life stage,31.76,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,217,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,hatching-to-pupal,NA,16,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1A,Carrington et al. 2013. Effects of Fluctuating Daily Temperatures at Critical Thermal Extremes on Aedes aegypti Life-History Traits. PLoS ONE 8(3): e58824,10.1371/journal.pone.0058824,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is an estimate of the number of individuals that survived interactor1stage from an initial number of around 330 (20 individuals per cup with 13 to 20 cups per temperature),TRUE,01/01/2013
NA,JOE028,development time,mean duration of life stage,15.98,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,293,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,hatching-to-pupal,NA,20,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1A,Carrington et al. 2013. Effects of Fluctuating Daily Temperatures at Critical Thermal Extremes on Aedes aegypti Life-History Traits. PLoS ONE 8(3): e58824,10.1371/journal.pone.0058824,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is an estimate of the number of individuals that survived interactor1stage from an initial number of around 330 (20 individuals per cup with 13 to 20 cups per temperature),TRUE,01/01/2013
NA,JOE028,development time,mean duration of life stage,9.15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,299,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,hatching-to-pupal,NA,26,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1A,Carrington et al. 2013. Effects of Fluctuating Daily Temperatures at Critical Thermal Extremes on Aedes aegypti Life-History Traits. PLoS ONE 8(3): e58824,10.1371/journal.pone.0058824,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is an estimate of the number of individuals that survived interactor1stage from an initial number of around 330 (20 individuals per cup with 13 to 20 cups per temperature),TRUE,01/01/2013
NA,JOE028,development time,mean duration of life stage,6.43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,293,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,hatching-to-pupal,NA,30,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1A,Carrington et al. 2013. Effects of Fluctuating Daily Temperatures at Critical Thermal Extremes on Aedes aegypti Life-History Traits. PLoS ONE 8(3): e58824,10.1371/journal.pone.0058824,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is an estimate of the number of individuals that survived interactor1stage from an initial number of around 330 (20 individuals per cup with 13 to 20 cups per temperature),TRUE,01/01/2013
NA,JOE028,development time,mean duration of life stage,5.83,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,277,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,hatching-to-pupal,NA,35,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1A,Carrington et al. 2013. Effects of Fluctuating Daily Temperatures at Critical Thermal Extremes on Aedes aegypti Life-History Traits. PLoS ONE 8(3): e58824,10.1371/journal.pone.0058824,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is an estimate of the number of individuals that survived interactor1stage from an initial number of around 330 (20 individuals per cup with 13 to 20 cups per temperature),TRUE,01/01/2013
NA,JOE028,development time,mean duration of life stage,7.84,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,hatching-to-pupal,NA,37,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1A,Carrington et al. 2013. Effects of Fluctuating Daily Temperatures at Critical Thermal Extremes on Aedes aegypti Life-History Traits. PLoS ONE 8(3): e58824,10.1371/journal.pone.0058824,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is an estimate of the number of individuals that survived interactor1stage from an initial number of around 330 (20 individuals per cup with 13 to 20 cups per temperature),TRUE,01/01/2013
NA,JOE028,development time,mean duration of life stage,7.74,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,210,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,hatching-to-pupal,NA,38,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1A,Carrington et al. 2013. Effects of Fluctuating Daily Temperatures at Critical Thermal Extremes on Aedes aegypti Life-History Traits. PLoS ONE 8(3): e58824,10.1371/journal.pone.0058824,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is an estimate of the number of individuals that survived interactor1stage from an initial number of around 330 (20 individuals per cup with 13 to 20 cups per temperature),TRUE,01/01/2013
NA,JOE028,development time,mean duration of life stage,12.96,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,hatching-to-pupal,NA,39,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1A,Carrington et al. 2013. Effects of Fluctuating Daily Temperatures at Critical Thermal Extremes on Aedes aegypti Life-History Traits. PLoS ONE 8(3): e58824,10.1371/journal.pone.0058824,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is an estimate of the number of individuals that survived interactor1stage from an initial number of around 330 (20 individuals per cup with 13 to 20 cups per temperature),TRUE,01/01/2013
NA,JOE028,development time,mean duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,hatching-to-pupal,NA,40,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1A,Carrington et al. 2013. Effects of Fluctuating Daily Temperatures at Critical Thermal Extremes on Aedes aegypti Life-History Traits. PLoS ONE 8(3): e58824,10.1371/journal.pone.0058824,NA,NA,Joe Harrison,joeh24@vt.edu,trait value set to zero because complete mortality occurred at this temperature. interactor1number is an estimate of the number of individuals that survived interactor1stage from an initial number of around 330 (20 individuals per cup with 13 to 20 cups per temperature),TRUE,01/01/2013
NA,JOE030,development time,mean duration of life stage at a constant temperature of 35 degrees Celsius,7.46,days,0.27,0.27,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,hatching-to-pupal,NA,35,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3A,Carrington et al. 2013. Effects of Fluctuating Daily Temperatures at Critical Thermal Extremes on Aedes aegypti Life-History Traits. PLoS ONE 8(3): e58824,10.1371/journal.pone.0058824,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE030,development time,mean duration of life stage with small (7.6 degree) diurnal fluctuations around a mean temperature of 35 degrees Celsius,6.93,days,0.17,0.17,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,temperature fluctuations,small diurnal temperature temperature fluctuations of secondstressorvalue around a mean temperature of 35 degrees Celsius,7.6,degrees,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,hatching-to-pupal,NA,35,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3A,Carrington et al. 2013. Effects of Fluctuating Daily Temperatures at Critical Thermal Extremes on Aedes aegypti Life-History Traits. PLoS ONE 8(3): e58824,10.1371/journal.pone.0058824,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE030,development time,mean duration of life stage with large (18.6 degrees) diurnal fluctuations around a mean temperature of 35 degrees Celsius,6.22,days,0.1,0.1,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,temperature fluctuations,large diurnal temperature temperature fluctuations of secondstressorvalue around a mean temperature of 35 degrees Celsius,18.6,degrees,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,hatching-to-pupal,NA,35,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3A,Carrington et al. 2013. Effects of Fluctuating Daily Temperatures at Critical Thermal Extremes on Aedes aegypti Life-History Traits. PLoS ONE 8(3): e58824,10.1371/journal.pone.0058824,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE031,development time,mean duration of life stage at a constant temperature of 16 degrees Celsius,34.63,days,1.29,1.29,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,hatching-to-pupal,NA,16,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3B,Carrington et al. 2013. Effects of Fluctuating Daily Temperatures at Critical Thermal Extremes on Aedes aegypti Life-History Traits. PLoS ONE 8(3): e58824,10.1371/journal.pone.0058824,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE031,development time,mean duration of life stage with small (7.6 degree) diurnal fluctuations around a mean temperature of 16 degrees Celsius,33.13,days,1,1,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,temperature fluctuations,small diurnal temperature temperature fluctuations of secondstressorvalue around a mean temperature of 35 degrees Celsius,7.6,degrees,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,hatching-to-pupal,NA,16,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3B,Carrington et al. 2013. Effects of Fluctuating Daily Temperatures at Critical Thermal Extremes on Aedes aegypti Life-History Traits. PLoS ONE 8(3): e58824,10.1371/journal.pone.0058824,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,JOE031,development time,mean duration of life stage with large (18.6 degrees) diurnal fluctuations around a mean temperature of 16 degrees Celsius,28.36,days,1.39,1.39,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,temperature fluctuations,large diurnal temperature temperature fluctuations of secondstressorvalue around a mean temperature of 35 degrees Celsius,18.6,degrees,NA,NA,NA,NA,NA,Kamphaeng Phet Thailand,field (f4),01/01/2011,4,decimal,16.558056,99.511111,Aedes aegypti,NA,NA,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,hatching-to-pupal,NA,16,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3B,Carrington et al. 2013. Effects of Fluctuating Daily Temperatures at Critical Thermal Extremes on Aedes aegypti Life-History Traits. PLoS ONE 8(3): e58824,10.1371/journal.pone.0058824,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2013
NA,COU001,development time,mean development time from hatch to pupation,18.95,days,0.47,0.47,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,10,mg ml-1,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to L4,NA,21,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU001,development time,mean development time from hatch to pupation,16.57,days,0.53,0.53,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,10,mg ml-1,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to L4,NA,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU001,development time,mean development time from hatch to pupation,14.71,days,0.4,0.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,10,mg ml-1,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to L4,NA,27,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU001,development time,mean development time from hatch to pupation,13.82,days,0.42,0.42,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,10,mg ml-1,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to L4,NA,30,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU001,development time,mean development time from hatch to pupation,11.81,days,0.19,0.19,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,20,mg ml-1,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to L4,NA,21,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU001,development time,mean development time from hatch to pupation,10.7,days,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,20,mg ml-1,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to L4,NA,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU001,development time,mean development time from hatch to pupation,9.92,days,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,20,mg ml-1,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to L4,NA,27,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU001,development time,mean development time from hatch to pupation,9.27,days,0.16,0.16,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,20,mg ml-1,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to L4,NA,30,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU001,development time,mean development time from hatch to pupation,10.23,days,0.11,0.11,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,40,mg ml-1,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to L4,NA,21,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU001,development time,mean development time from hatch to pupation,8.11,days,0.11,0.11,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,40,mg ml-1,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to L4,NA,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU001,development time,mean development time from hatch to pupation,6.58,days,0.94,0.94,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,40,mg ml-1,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to L4,NA,27,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU001,development time,mean development time from hatch to pupation,6.39,days,0.08,0.08,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,40,mg ml-1,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to L4,NA,30,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU001,development time,mean development time from hatch to pupation,9.88,days,0.09,0.09,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,80,mg ml-1,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to L4,NA,21,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU001,development time,mean development time from hatch to pupation,7.49,days,0.05,0.05,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,80,mg ml-1,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to L4,NA,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU001,development time,mean development time from hatch to pupation,6.24,days,0.12,0.12,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,80,mg ml-1,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to L4,NA,27,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU001,development time,mean development time from hatch to pupation,5.74,days,0.06,0.06,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,80,mg ml-1,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to L4,NA,30,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU002,development time,mean development time from hatch to pupation,14.35,days,0.28,0.28,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,intitial larval rearing density,80,larvae per 250 ml water,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,80,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to L4,NA,21,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU002,development time,mean development time from hatch to pupation,12.61,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,intitial larval rearing density,80,larvae per 250 ml water,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,80,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to L4,NA,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU002,development time,mean development time from hatch to pupation,11.32,days,0.25,0.25,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,intitial larval rearing density,80,larvae per 250 ml water,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,80,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to L4,NA,27,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU002,development time,mean development time from hatch to pupation,10.26,days,0.24,0.24,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,intitial larval rearing density,80,larvae per 250 ml water,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,80,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to L4,NA,30,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU002,development time,mean development time from hatch to pupation,11.11,days,0.17,0.17,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,intitial larval rearing density,40,larvae per 250 ml water,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to L4,NA,21,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU002,development time,mean development time from hatch to pupation,9.05,days,0.17,0.17,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,intitial larval rearing density,40,larvae per 250 ml water,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to L4,NA,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU002,development time,mean development time from hatch to pupation,7.8,days,0.17,0.17,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,intitial larval rearing density,40,larvae per 250 ml water,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to L4,NA,27,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU002,development time,mean development time from hatch to pupation,7.27,days,0.12,0.12,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,intitial larval rearing density,40,larvae per 250 ml water,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to L4,NA,30,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU002,development time,mean development time from hatch to pupation,10.2,days,0.14,0.14,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,intitial larval rearing density,20,larvae per 250 ml water,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to L4,NA,21,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU002,development time,mean development time from hatch to pupation,7.88,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,intitial larval rearing density,20,larvae per 250 ml water,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to L4,NA,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU002,development time,mean development time from hatch to pupation,6.54,days,0.16,0.16,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,intitial larval rearing density,20,larvae per 250 ml water,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to L4,NA,27,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU002,development time,mean development time from hatch to pupation,6,days,0.09,0.09,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,intitial larval rearing density,20,larvae per 250 ml water,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to L4,NA,30,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU002,development time,mean development time from hatch to pupation,10.57,days,0.14,0.14,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,intitial larval rearing density,10,larvae per 250 ml water,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to L4,NA,21,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU002,development time,mean development time from hatch to pupation,7.73,days,0.09,0.09,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,intitial larval rearing density,10,larvae per 250 ml water,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to L4,NA,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU002,development time,mean development time from hatch to pupation,6.18,days,0.12,0.12,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,intitial larval rearing density,10,larvae per 250 ml water,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to L4,NA,27,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU002,development time,mean development time from hatch to pupation,6.18,days,0.11,0.11,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,intitial larval rearing density,10,larvae per 250 ml water,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to L4,NA,30,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU003,development time,mean development time from hatch to pupation,22.62,days,0.5,0.5,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,10,mg ml-1,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,21,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU003,development time,mean development time from hatch to pupation,19.19,days,0.56,0.56,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,10,mg ml-1,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU003,development time,mean development time from hatch to pupation,16.58,days,0.39,0.39,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,10,mg ml-1,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,27,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU003,development time,mean development time from hatch to pupation,14.51,days,0.37,0.37,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,10,mg ml-1,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,30,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU003,development time,mean development time from hatch to pupation,15.34,days,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,20,mg ml-1,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,21,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU003,development time,mean development time from hatch to pupation,13.26,days,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,20,mg ml-1,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU003,development time,mean development time from hatch to pupation,11.88,days,0.19,0.19,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,20,mg ml-1,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,27,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU003,development time,mean development time from hatch to pupation,10.87,days,0.16,0.16,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,20,mg ml-1,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,30,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU003,development time,mean development time from hatch to pupation,13.63,days,0.11,0.11,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,40,mg ml-1,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,21,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU003,development time,mean development time from hatch to pupation,10.55,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,40,mg ml-1,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU003,development time,mean development time from hatch to pupation,9.14,days,0.07,0.07,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,40,mg ml-1,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,27,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU003,development time,mean development time from hatch to pupation,8.07,days,0.08,0.08,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,40,mg ml-1,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,30,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU003,development time,mean development time from hatch to pupation,13.37,days,0.09,0.09,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,80,mg ml-1,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,21,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU003,development time,mean development time from hatch to pupation,9.98,days,0.05,0.05,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,80,mg ml-1,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU003,development time,mean development time from hatch to pupation,8.45,days,0.07,0.07,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,80,mg ml-1,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,27,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU003,development time,mean development time from hatch to pupation,7.18,days,0.05,0.05,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food made available during larval development,80,mg ml-1,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,30,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU004,development time,mean development time from hatch to pupation,17.99,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,intitial larval rearing density,80,larvae per 250 ml water,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,80,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,21,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU004,development time,mean development time from hatch to pupation,15.1,days,0.31,0.31,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,intitial larval rearing density,80,larvae per 250 ml water,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,80,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU004,development time,mean development time from hatch to pupation,13.23,days,0.25,0.25,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,intitial larval rearing density,80,larvae per 250 ml water,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,80,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,27,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU004,development time,mean development time from hatch to pupation,11.3,days,0.22,0.22,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,intitial larval rearing density,80,larvae per 250 ml water,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,80,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,30,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU004,development time,mean development time from hatch to pupation,14.48,days,0.18,0.18,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,intitial larval rearing density,40,larvae per 250 ml water,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,21,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU004,development time,mean development time from hatch to pupation,11.62,days,0.17,0.17,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,intitial larval rearing density,40,larvae per 250 ml water,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU004,development time,mean development time from hatch to pupation,10.21,days,0.17,0.17,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,intitial larval rearing density,40,larvae per 250 ml water,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,27,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU004,development time,mean development time from hatch to pupation,8.95,days,0.12,0.12,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,intitial larval rearing density,40,larvae per 250 ml water,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,30,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU004,development time,mean development time from hatch to pupation,13.63,days,0.13,0.13,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,intitial larval rearing density,20,larvae per 250 ml water,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,21,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU004,development time,mean development time from hatch to pupation,10.36,days,0.13,0.13,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,intitial larval rearing density,20,larvae per 250 ml water,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU004,development time,mean development time from hatch to pupation,9.03,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,intitial larval rearing density,20,larvae per 250 ml water,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,27,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU004,development time,mean development time from hatch to pupation,7.74,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,intitial larval rearing density,20,larvae per 250 ml water,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,30,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU004,development time,mean development time from hatch to pupation,14.14,days,0.15,0.15,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,intitial larval rearing density,10,larvae per 250 ml water,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,21,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU004,development time,mean development time from hatch to pupation,10.18,days,0.13,0.13,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,intitial larval rearing density,10,larvae per 250 ml water,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU004,development time,mean development time from hatch to pupation,8.7,days,0.09,0.09,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,intitial larval rearing density,10,larvae per 250 ml water,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,27,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,COU004,development time,mean development time from hatch to pupation,7.82,days,0.11,0.11,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing density,intitial larval rearing density,10,larvae per 250 ml water,NA,NA,NA,NA,NA,Iquitos Peru,field (F2),NA,0,decimal,-3.74912,-73.25383,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,30,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Couret et al. 2014. Temperature larval diet and density effects on development rate and survival of Aedes aegypti (Diptera: Culicidae). PLoS ONE 9(2): e87468.,10.1371/journal.pone.0087468,NA,NA,Daniele Da Re,dare.daniele@gmail.com,values (originaltraitvalue) are averaged across density treatments for each diet level. all experimental individuals were reared from dried F2 eggs originating from wild caught eggs collected in the field (locationtext),TRUE,01/01/2014
NA,FTTA1,development time,replicate-level mean duration of life stage,21.3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,whole,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,juvenile (L1 to adult),female,19.13,Celsius,incubator,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTA1,development time,replicate-level mean duration of life stage,18.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,whole,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,juvenile (L1 to adult),female,19.13,Celsius,incubator,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTA1,development time,replicate-level mean duration of life stage,18.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,whole,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,juvenile (L1 to adult),female,19.13,Celsius,incubator,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTA1,development time,replicate-level mean duration of life stage,17.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,whole,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,juvenile (L1 to adult),female,19.13,Celsius,incubator,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTA1,development time,replicate-level mean duration of life stage,17.3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,whole,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,juvenile (L1 to adult),female,19.13,Celsius,incubator,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTA1,development time,replicate-level mean duration of life stage,17.2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,whole,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,juvenile (L1 to adult),female,19.13,Celsius,incubator,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTA1,development time,replicate-level mean duration of life stage,8.3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,whole,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,juvenile (L1 to adult),female,24.9,Celsius,incubator,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTA1,development time,replicate-level mean duration of life stage,8.1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,whole,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,juvenile (L1 to adult),female,24.9,Celsius,incubator,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTA1,development time,replicate-level mean duration of life stage,8.1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,whole,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,juvenile (L1 to adult),female,24.9,Celsius,incubator,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTA1,development time,replicate-level mean duration of life stage,7.9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,whole,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,juvenile (L1 to adult),female,24.9,Celsius,incubator,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTA1,development time,replicate-level mean duration of life stage,7.9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,whole,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,juvenile (L1 to adult),female,24.9,Celsius,incubator,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTA1,development time,replicate-level mean duration of life stage,7.8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,whole,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,juvenile (L1 to adult),female,24.9,Celsius,incubator,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTA1,development time,replicate-level mean duration of life stage,6.6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,whole,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,juvenile (L1 to adult),female,31.02,Celsius,incubator,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTA1,development time,replicate-level mean duration of life stage,6.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,whole,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,juvenile (L1 to adult),female,31.02,Celsius,incubator,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTA1,development time,replicate-level mean duration of life stage,6.4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,whole,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,juvenile (L1 to adult),female,31.02,Celsius,incubator,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTA1,development time,replicate-level mean duration of life stage,6.3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,whole,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,juvenile (L1 to adult),female,31.02,Celsius,incubator,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTA1,development time,replicate-level mean duration of life stage,6.2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,whole,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,juvenile (L1 to adult),female,31.02,Celsius,incubator,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,FTTA1,development time,replicate-level mean duration of life stage,6.2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Bull Sluice Rapid Rabun County Georgia USA,field,NA,0,decimal,34.8175951,-83.30406072,Aedes atropalpus,American rock pool mosquito,whole,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,atropalpus,juvenile (L1 to adult),female,31.02,Celsius,incubator,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Day et al. 2020. Population Growth Rates of Aedes atropalpus (Diptera Culicidae) Are Depressed at Lower Temperatures Where Aedes Japonicus japonicus Diptera Culicidae Are Naturally Abundant in Rock Pools. Journal of Medical Entomology 58:1,10.1093/jme/tjaa183,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the approximate number of females per experiment unit,TRUE,01/01/2020
NA,NA,development time,mean duration of life stage,2,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 and L2,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,3,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,2.7,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,7.7,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1-L4,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,2.7,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,14,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (egg to adult),NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,2.7,days,0.7,0.7,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 and L2,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,1.3,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,2,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,6,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1-L4,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,2.3,days,0.7,0.7,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,11,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (egg to adult),NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,2,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 and L2,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,1.3,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,2.3,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,5.7,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1-L4,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,2,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,9.3,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (egg to adult),NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,2.2,days,1.7,1.7,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 and L2,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,1.5,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,1.8,days,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,5.5,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1-L4,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,1,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,7.5,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (egg to adult),NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,2.8,days,0.5,0.5,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 and L2,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,3.3,days,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,3.3,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,9.5,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1-L4,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,3.7,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,16.8,days,0.6,0.6,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (egg to adult),NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,3.3,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 and L2,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,2.3,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,3.2,days,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
YEZ1,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.7488,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ2,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.728,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ3,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.5903,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ4,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.6226,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ5,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.8468,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ6,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.6767,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ7,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.67490000000000006,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ8,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.7238,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ9,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.6754,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ10,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.6629,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ11,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.7787,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ12,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.7734,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ13,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),1,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.7893,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ14,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.7406,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ15,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.9668,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ16,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.9331,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ17,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.8918,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ18,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.7273,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ19,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.8645,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ20,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.8623,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ21,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,0.8355,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ22,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,0.7253,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ23,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,0.6885,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ24,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,0.7191,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ25,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,0.7942,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ26,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,0.9986,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ27,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),8,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,0.7255,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ28,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,0.7948,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ29,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,0.8076,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ30,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,0.9481,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ31,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.5611,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ32,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),18,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.3389,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ33,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),52,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.3586,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ34,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),44,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.3156,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ35,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),54,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.48,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ36,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),44,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.5851,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ37,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),23,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.576,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ38,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),48,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.6452,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ39,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),62,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.4747,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ40,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),12,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.4561,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ41,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),48,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.7226,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ42,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),62,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.5208,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ43,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),59,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.5021,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ44,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),68,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.5246,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ45,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),65,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.4755,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ46,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),58,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.5371,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ47,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),72,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.8455,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ48,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),44,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.5356,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ49,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),59,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.4801,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ50,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),47,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.641,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ51,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),94,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,0.6773,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ52,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),104,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,1.1281,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ53,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),88,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,0.5144,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ54,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,0.6323,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ55,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),37,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,0.4726,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ56,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),86,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,0.8671,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ57,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),89,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,0.5132,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ58,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),104,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,1.1525,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ59,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),97,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,0.5782,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ60,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),79,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,0.4437,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ61,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.8383,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ62,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),18,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.6439,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ63,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.4328,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ64,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),29,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.4087,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ65,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.5802,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ66,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.4026,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ67,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.5512,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ68,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.5915,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ69,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.4827,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ70,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),25,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.5372,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ71,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),14,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.7805,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ72,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.721,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ73,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),42,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.5793,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ74,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),25,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.4361,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ75,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),4,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.4989,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ76,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),34,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.6059,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ77,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),54,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.7602,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ78,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),19,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.641,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ79,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),49,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.6016,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ80,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),63,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,1.102,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ81,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),74,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,1.1035,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ82,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),75,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,0.8028,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ83,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),84,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,1.0651,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ84,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),71,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,0.489,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ85,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),87,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,0.8035,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ86,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),16,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,0.728,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ87,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),94,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,0.7267,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ88,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),89,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,0.5813,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ89,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),29,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,0.6056,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ90,NA,fecundity,individual-level lifetime eggs as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),120,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,1.0396,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ1,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.7488,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ2,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.728,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ3,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.5903,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ4,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.6226,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ5,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.8468,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ6,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.6767,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ7,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.67490000000000006,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ8,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.7238,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ9,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.6754,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ10,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.6629,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ11,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.7787,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ12,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.7734,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ13,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),1,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.7893,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ14,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.7406,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ15,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.9668,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ16,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.9331,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ17,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.8918,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ18,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.7273,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ19,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.8645,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ20,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.8623,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ21,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,0.8355,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ22,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,0.7253,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ23,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,0.6885,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ24,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,0.7191,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ25,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,0.7942,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ26,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,0.9986,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ27,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,0.7255,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ28,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,0.7948,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ29,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,0.8076,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ30,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,0.9481,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ31,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.5611,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ32,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),18,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.3389,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ33,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),43,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.3586,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ34,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),44,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.3156,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ35,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),51,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.48,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ36,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),39,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.5851,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ37,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),23,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.576,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ38,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),43,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.6452,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ39,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),62,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.4747,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ40,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),12,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.4561,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ41,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),45,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.7226,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ42,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),60,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.5208,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ43,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),51,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.5021,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ44,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),57,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.5246,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ45,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),53,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.4755,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ46,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),55,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.5371,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ47,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),72,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.8455,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ48,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),44,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.5356,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ49,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),46,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.4801,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ50,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),42,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.641,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ51,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),92,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,0.6773,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ52,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),91,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,1.1281,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ53,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),73,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,0.5144,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ54,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,0.6323,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ55,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),37,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,0.4726,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ56,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),69,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,0.8671,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ57,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),80,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,0.5132,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ58,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),100,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,1.1525,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ59,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),89,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,0.5782,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2019
YEZ60,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),79,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,0.4437,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEZ61,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.8383,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEZ62,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),15,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.6439,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEZ63,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.4328,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEZ64,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),28,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.4087,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEZ65,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.5802,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEZ66,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.4026,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEZ67,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.5512,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEZ68,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.5915,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEZ69,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.4827,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEZ70,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),25,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,0.5372,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEZ71,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),13,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.7805,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEZ72,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.721,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEZ73,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),35,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.5793,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEZ74,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),25,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.4361,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEZ75,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),0,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.4989,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEZ76,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),31,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.6059,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEZ77,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),47,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.7602,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEZ78,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),19,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.641,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEZ79,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),45,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,0.6016,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEZ80,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),49,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,1.102,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEZ81,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),63,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,1.1035,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEZ82,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),74,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,0.8028,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEZ83,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),48,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,1.0651,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEZ84,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),40,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,0.489,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEZ85,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),79,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,0.8035,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEZ86,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),16,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,0.728,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEZ87,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),84,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,0.7267,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEZ88,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),68,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,0.5813,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEZ89,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),28,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,0.6056,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEZ90,NA,fecundity,individual-level lifetime progeny as a function of larval rearing temperature (interactor1growthtemp) and adult temperature (interactor1temp),101,progeny,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,1.0396,mg,dry mass,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 2),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ001,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,34,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ002,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,34,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ003,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,34,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ004,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,34,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ005,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,34,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ006,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,34,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ007,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,34,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ008,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,34,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ009,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,34,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ010,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,34,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ011,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ012,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ013,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ014,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ015,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ016,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ017,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ018,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ019,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ020,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ021,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ022,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ023,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ024,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ025,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ026,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ027,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ028,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ029,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ030,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ031,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ032,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ033,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ034,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ035,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ036,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ037,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ038,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ039,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ040,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,20,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ041,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,20,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ042,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,20,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ043,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,20,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ044,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,20,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ045,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,20,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ046,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,20,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ047,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,20,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ048,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,20,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ049,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,20,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ050,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ051,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ052,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ053,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ054,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ055,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ056,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ057,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ058,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YZZ059,NA,longevity,individual-level duration of life stage as a function of temperature (interactor1temp) and larval rearing temperature (interactor1growthtemp),11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 3),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
NA,NA,survival,percent surviving life stage after 5-minute exposure to extreme high temperatures,25.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,unknown,colony,NA,0,NA,NA,NA,Aedes aegypti,Yellow fever mosquito,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,48,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farid 1949. Relationships between certain populations of Culex pipiens Linnaeus and Culex quinquefasciatus Say in the United States. Am. J. Hyg. 49: 83-100,10.1093/oxfordjournals.aje.a119263,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=35),TRUE,01/01/1949
NA,NA,survival,percent surviving life stage after 5-minute exposure to extreme high temperatures,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,unknown,colony,NA,0,NA,NA,NA,Aedes aegypti,Yellow fever mosquito,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,48,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farid 1949. Relationships between certain populations of Culex pipiens Linnaeus and Culex quinquefasciatus Say in the United States. Am. J. Hyg. 49: 83-100,10.1093/oxfordjournals.aje.a119263,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=100),TRUE,01/01/1949
NA,NA,survival,percent surviving life stage after 5-minute exposure to extreme high temperatures,29.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,unknown,colony,NA,0,NA,NA,NA,Aedes aegypti,Yellow fever mosquito,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,47,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farid 1949. Relationships between certain populations of Culex pipiens Linnaeus and Culex quinquefasciatus Say in the United States. Am. J. Hyg. 49: 83-100,10.1093/oxfordjournals.aje.a119263,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=27),TRUE,01/01/1949
NA,NA,survival,percent surviving life stage after 5-minute exposure to extreme high temperatures,6.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,unknown,colony,NA,0,NA,NA,NA,Aedes aegypti,Yellow fever mosquito,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,47,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farid 1949. Relationships between certain populations of Culex pipiens Linnaeus and Culex quinquefasciatus Say in the United States. Am. J. Hyg. 49: 83-100,10.1093/oxfordjournals.aje.a119263,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=174),TRUE,01/01/1949
NA,NA,survival,percent surviving life stage after 5-minute exposure to extreme high temperatures,34,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,unknown,colony,NA,0,NA,NA,NA,Aedes aegypti,Yellow fever mosquito,NA,NA,34,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,47,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farid 1949. Relationships between certain populations of Culex pipiens Linnaeus and Culex quinquefasciatus Say in the United States. Am. J. Hyg. 49: 83-100,10.1093/oxfordjournals.aje.a119263,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=100),TRUE,01/01/1949
NA,NA,survival,percent surviving life stage after 5-minute exposure to extreme high temperatures,10,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,unknown,colony,NA,0,NA,NA,NA,Aedes aegypti,Yellow fever mosquito,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,47,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farid 1949. Relationships between certain populations of Culex pipiens Linnaeus and Culex quinquefasciatus Say in the United States. Am. J. Hyg. 49: 83-100,10.1093/oxfordjournals.aje.a119263,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=100),TRUE,01/01/1949
NA,NA,survival,percent surviving life stage after 5-minute exposure to extreme high temperatures,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,unknown,colony,NA,0,NA,NA,NA,Aedes aegypti,Yellow fever mosquito,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,47,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farid 1949. Relationships between certain populations of Culex pipiens Linnaeus and Culex quinquefasciatus Say in the United States. Am. J. Hyg. 49: 83-100,10.1093/oxfordjournals.aje.a119263,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=35),TRUE,01/01/1949
NA,NA,survival,percent surviving life stage after 5-minute exposure to extreme high temperatures,35,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,unknown,colony,NA,0,NA,NA,NA,Aedes aegypti,Yellow fever mosquito,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,47,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farid 1949. Relationships between certain populations of Culex pipiens Linnaeus and Culex quinquefasciatus Say in the United States. Am. J. Hyg. 49: 83-100,10.1093/oxfordjournals.aje.a119263,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=100),TRUE,01/01/1949
NA,NA,survival,percent surviving life stage after 5-minute exposure to extreme high temperatures,45.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,unknown,colony,NA,0,NA,NA,NA,Aedes aegypti,Yellow fever mosquito,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,46,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farid 1949. Relationships between certain populations of Culex pipiens Linnaeus and Culex quinquefasciatus Say in the United States. Am. J. Hyg. 49: 83-100,10.1093/oxfordjournals.aje.a119263,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=31),TRUE,01/01/1949
NA,NA,survival,percent surviving life stage after 5-minute exposure to extreme high temperatures,37.1,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,unknown,colony,NA,0,NA,NA,NA,Aedes aegypti,Yellow fever mosquito,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,46,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farid 1949. Relationships between certain populations of Culex pipiens Linnaeus and Culex quinquefasciatus Say in the United States. Am. J. Hyg. 49: 83-100,10.1093/oxfordjournals.aje.a119263,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=202),TRUE,01/01/1949
NA,NA,survival,percent surviving life stage after 5-minute exposure to extreme high temperatures,58.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,unknown,colony,NA,0,NA,NA,NA,Aedes aegypti,Yellow fever mosquito,NA,NA,64,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,46,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farid 1949. Relationships between certain populations of Culex pipiens Linnaeus and Culex quinquefasciatus Say in the United States. Am. J. Hyg. 49: 83-100,10.1093/oxfordjournals.aje.a119263,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=110),TRUE,01/01/1949
NA,NA,survival,percent surviving life stage after 5-minute exposure to extreme high temperatures,43.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,unknown,colony,NA,0,NA,NA,NA,Aedes aegypti,Yellow fever mosquito,NA,NA,44,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,46,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farid 1949. Relationships between certain populations of Culex pipiens Linnaeus and Culex quinquefasciatus Say in the United States. Am. J. Hyg. 49: 83-100,10.1093/oxfordjournals.aje.a119263,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=101),TRUE,01/01/1949
NA,NA,survival,percent surviving life stage after 5-minute exposure to extreme high temperatures,30,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,unknown,colony,NA,0,NA,NA,NA,Aedes aegypti,Yellow fever mosquito,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,46,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farid 1949. Relationships between certain populations of Culex pipiens Linnaeus and Culex quinquefasciatus Say in the United States. Am. J. Hyg. 49: 83-100,10.1093/oxfordjournals.aje.a119263,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=100),TRUE,01/01/1949
NA,NA,survival,percent surviving life stage after 5-minute exposure to extreme high temperatures,84.3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,unknown,colony,NA,0,NA,NA,NA,Aedes aegypti,Yellow fever mosquito,NA,NA,86,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,46,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farid 1949. Relationships between certain populations of Culex pipiens Linnaeus and Culex quinquefasciatus Say in the United States. Am. J. Hyg. 49: 83-100,10.1093/oxfordjournals.aje.a119263,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=102),TRUE,01/01/1949
NA,NA,survival,percent surviving life stage after 5-minute exposure to extreme high temperatures,92.3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,unknown,colony,NA,0,NA,NA,NA,Aedes aegypti,Yellow fever mosquito,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,45,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farid 1949. Relationships between certain populations of Culex pipiens Linnaeus and Culex quinquefasciatus Say in the United States. Am. J. Hyg. 49: 83-100,10.1093/oxfordjournals.aje.a119263,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),TRUE,01/01/1949
NA,NA,survival,percent surviving life stage after 5-minute exposure to extreme high temperatures,80.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,unknown,colony,NA,0,NA,NA,NA,Aedes aegypti,Yellow fever mosquito,NA,NA,175,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,45,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farid 1949. Relationships between certain populations of Culex pipiens Linnaeus and Culex quinquefasciatus Say in the United States. Am. J. Hyg. 49: 83-100,10.1093/oxfordjournals.aje.a119263,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=271),TRUE,01/01/1949
NA,NA,survival,percent surviving life stage after 5-minute exposure to extreme high temperatures,77.3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,unknown,colony,NA,0,NA,NA,NA,Aedes aegypti,Yellow fever mosquito,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,45,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farid 1949. Relationships between certain populations of Culex pipiens Linnaeus and Culex quinquefasciatus Say in the United States. Am. J. Hyg. 49: 83-100,10.1093/oxfordjournals.aje.a119263,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=97),TRUE,01/01/1949
NA,NA,survival,percent surviving life stage after 5-minute exposure to extreme high temperatures,53.1,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,unknown,colony,NA,0,NA,NA,NA,Aedes aegypti,Yellow fever mosquito,NA,NA,52,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,45,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farid 1949. Relationships between certain populations of Culex pipiens Linnaeus and Culex quinquefasciatus Say in the United States. Am. J. Hyg. 49: 83-100,10.1093/oxfordjournals.aje.a119263,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=98),TRUE,01/01/1949
NA,NA,survival,percent surviving life stage after 5-minute exposure to extreme high temperatures,59,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,unknown,colony,NA,0,NA,NA,NA,Aedes aegypti,Yellow fever mosquito,NA,NA,59,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,45,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farid 1949. Relationships between certain populations of Culex pipiens Linnaeus and Culex quinquefasciatus Say in the United States. Am. J. Hyg. 49: 83-100,10.1093/oxfordjournals.aje.a119263,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=100),TRUE,01/01/1949
NA,NA,survival,percent surviving life stage after 5-minute exposure to extreme high temperatures,91,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,unknown,colony,NA,0,NA,NA,NA,Aedes aegypti,Yellow fever mosquito,NA,NA,91,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,45,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farid 1949. Relationships between certain populations of Culex pipiens Linnaeus and Culex quinquefasciatus Say in the United States. Am. J. Hyg. 49: 83-100,10.1093/oxfordjournals.aje.a119263,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=100),TRUE,01/01/1949
NA,NA,survival,percent surviving life stage after 5-minute exposure to extreme high temperatures,96.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,unknown,colony,NA,0,NA,NA,NA,Aedes aegypti,Yellow fever mosquito,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,44,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farid 1949. Relationships between certain populations of Culex pipiens Linnaeus and Culex quinquefasciatus Say in the United States. Am. J. Hyg. 49: 83-100,10.1093/oxfordjournals.aje.a119263,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=30),TRUE,01/01/1949
NA,NA,survival,percent surviving life stage after 5-minute exposure to extreme high temperatures,90,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,unknown,colony,NA,0,NA,NA,NA,Aedes aegypti,Yellow fever mosquito,NA,NA,188,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,44,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farid 1949. Relationships between certain populations of Culex pipiens Linnaeus and Culex quinquefasciatus Say in the United States. Am. J. Hyg. 49: 83-100,10.1093/oxfordjournals.aje.a119263,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=209),TRUE,01/01/1949
NA,NA,survival,percent surviving life stage after 5-minute exposure to extreme high temperatures,98,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,unknown,colony,NA,0,NA,NA,NA,Aedes aegypti,Yellow fever mosquito,NA,NA,97,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,44,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farid 1949. Relationships between certain populations of Culex pipiens Linnaeus and Culex quinquefasciatus Say in the United States. Am. J. Hyg. 49: 83-100,10.1093/oxfordjournals.aje.a119263,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=99),TRUE,01/01/1949
NA,NA,survival,percent surviving life stage after 5-minute exposure to extreme high temperatures,93.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,unknown,colony,NA,0,NA,NA,NA,Aedes aegypti,Yellow fever mosquito,NA,NA,92,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,44,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farid 1949. Relationships between certain populations of Culex pipiens Linnaeus and Culex quinquefasciatus Say in the United States. Am. J. Hyg. 49: 83-100,10.1093/oxfordjournals.aje.a119263,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=98),TRUE,01/01/1949
NA,NA,survival,percent surviving life stage after 5-minute exposure to extreme high temperatures,94,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,unknown,colony,NA,0,NA,NA,NA,Aedes aegypti,Yellow fever mosquito,NA,NA,94,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,44,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farid 1949. Relationships between certain populations of Culex pipiens Linnaeus and Culex quinquefasciatus Say in the United States. Am. J. Hyg. 49: 83-100,10.1093/oxfordjournals.aje.a119263,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=100),TRUE,01/01/1949
NA,NA,survival,percent surviving life stage after 5-minute exposure to extreme high temperatures,99,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,unknown,colony,NA,0,NA,NA,NA,Aedes aegypti,Yellow fever mosquito,NA,NA,99,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,44,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farid 1949. Relationships between certain populations of Culex pipiens Linnaeus and Culex quinquefasciatus Say in the United States. Am. J. Hyg. 49: 83-100,10.1093/oxfordjournals.aje.a119263,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=100),TRUE,01/01/1949
NA,NA,body size,average wing length of females that laid eggs after the 1st blood meal,2.34,mm,0.12,0.12,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,0.15,mg larva-1 day-1,NA,NA,NA,NA,NA,Singapore,colony,01/01/2006,2,decimal,1.275552318,103.8442347,Aedes aegypti,NA,NA,NA,66,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,body size,average wing length of females that laid eggs after the 1st blood meal,2.67,mm,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,0.15,mg larva-1 day-1,NA,NA,NA,NA,NA,Singapore,colony,01/01/2006,2,decimal,1.275552318,103.8442347,Aedes aegypti,NA,NA,NA,64,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,body size,average wing length of females that laid eggs after the 1st blood meal,2.82,mm,0.09,0.09,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,1.2,mg larva-1 day-1,NA,NA,NA,NA,NA,Singapore,colony,01/01/2006,2,decimal,1.275552318,103.8442347,Aedes aegypti,NA,NA,NA,65,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,body size,average wing length of females that laid eggs after the 1st blood meal,3.21,mm,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,1.2,mg larva-1 day-1,NA,NA,NA,NA,NA,Singapore,colony,01/01/2006,2,decimal,1.275552318,103.8442347,Aedes aegypti,NA,NA,NA,69,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,body size,average wing length of females that did not lay eggs after the 1st blood meal,2.34,mm,0.16,0.16,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,0.15,mg larva-1 day-1,NA,NA,NA,NA,NA,Singapore,colony,01/01/2006,2,decimal,1.275552318,103.8442347,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,body size,average wing length of females that did not lay eggs after the 1st blood meal,2.69,mm,0.09,0.09,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,0.15,mg larva-1 day-1,NA,NA,NA,NA,NA,Singapore,colony,01/01/2006,2,decimal,1.275552318,103.8442347,Aedes aegypti,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,body size,average wing length of females that did not lay eggs after the 1st blood meal,2.79,mm,0.09,0.09,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,1.2,mg larva-1 day-1,NA,NA,NA,NA,NA,Singapore,colony,01/01/2006,2,decimal,1.275552318,103.8442347,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,body size,average wing length of females that did not lay eggs after the 1st blood meal,3,mm,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,1.2,mg larva-1 day-1,NA,NA,NA,NA,NA,Singapore,colony,01/01/2006,2,decimal,1.275552318,103.8442347,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,body size,average wing length of females that laid eggs after the 2nd blood meal,2.66,mm,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,0.15,mg larva-1 day-1,NA,NA,NA,NA,NA,Singapore,colony,01/01/2006,2,decimal,1.275552318,103.8442347,Aedes aegypti,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,body size,average wing length of females that did not lay eggs after the 2nd blood meal,2.34,mm,0.16,0.16,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,0.15,mg larva-1 day-1,NA,NA,NA,NA,NA,Singapore,colony,01/01/2006,2,decimal,1.275552318,103.8442347,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,body size,average wing length of females that did not lay eggs after the 2nd blood meal,2.71,mm,0.02,0.02,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,0.15,mg larva-1 day-1,NA,NA,NA,NA,NA,Singapore,colony,01/01/2006,2,decimal,1.275552318,103.8442347,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,body size,average wing length of females that did not lay eggs after the 2nd blood meal,2.81,mm,0.09,0.09,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,1.2,mg larva-1 day-1,NA,NA,NA,NA,NA,Singapore,colony,01/01/2006,2,decimal,1.275552318,103.8442347,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,body size,average wing length of females that did not lay eggs after the 2nd blood meal,3,mm,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,1.2,mg larva-1 day-1,NA,NA,NA,NA,NA,Singapore,colony,01/01/2006,2,decimal,1.275552318,103.8442347,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,body size,average wing length of females that did not lay eggs after the 3rd blood meal,2.34,mm,0.16,0.16,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,0.15,mg larva-1 day-1,NA,NA,NA,NA,NA,Singapore,colony,01/01/2006,2,decimal,1.275552318,103.8442347,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,body size,average wing length of females that did not lay eggs after the 3rd blood meal,2.81,mm,0.09,0.09,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,1.2,mg larva-1 day-1,NA,NA,NA,NA,NA,Singapore,colony,01/01/2006,2,decimal,1.275552318,103.8442347,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,body size,average wing length of females that did not lay eggs after the 3rd blood meal,3,mm,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,1.2,mg larva-1 day-1,NA,NA,NA,NA,NA,Singapore,colony,01/01/2006,2,decimal,1.275552318,103.8442347,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,body size,average wing length of females that laid eggs after the 1st blood meal,2.14,mm,0.08,0.08,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,0.15,mg larva-1 day-1,NA,NA,NA,NA,NA,Nagasaki Japan,colony,01/01/2001,2,decimal,32.75369383,129.8834187,Aedes albopictus,NA,NA,NA,62,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,body size,average wing length of females that laid eggs after the 1st blood meal,2.36,mm,0.06,0.06,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,0.15,mg larva-1 day-1,NA,NA,NA,NA,NA,Nagasaki Japan,colony,01/01/2001,2,decimal,32.75369383,129.8834187,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,body size,average wing length of females that laid eggs after the 1st blood meal,2.53,mm,0.09,0.09,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,1.2,mg larva-1 day-1,NA,NA,NA,NA,NA,Nagasaki Japan,colony,01/01/2001,2,decimal,32.75369383,129.8834187,Aedes albopictus,NA,NA,NA,64,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,body size,average wing length of females that laid eggs after the 1st blood meal,2.83,mm,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,1.2,mg larva-1 day-1,NA,NA,NA,NA,NA,Nagasaki Japan,colony,01/01/2001,2,decimal,32.75369383,129.8834187,Aedes albopictus,NA,NA,NA,61,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,body size,average wing length of females that did not lay eggs after the 1st blood meal,2.17,mm,0.04,0.04,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,0.15,mg larva-1 day-1,NA,NA,NA,NA,NA,Nagasaki Japan,colony,01/01/2001,2,decimal,32.75369383,129.8834187,Aedes albopictus,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,body size,average wing length of females that did not lay eggs after the 1st blood meal,2.38,mm,0.07,0.07,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,0.15,mg larva-1 day-1,NA,NA,NA,NA,NA,Nagasaki Japan,colony,01/01/2001,2,decimal,32.75369383,129.8834187,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,body size,average wing length of females that did not lay eggs after the 1st blood meal,2.56,mm,0.13,0.13,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,1.2,mg larva-1 day-1,NA,NA,NA,NA,NA,Nagasaki Japan,colony,01/01/2001,2,decimal,32.75369383,129.8834187,Aedes albopictus,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,body size,average wing length of females that did not lay eggs after the 1st blood meal,2.76,mm,0.09,0.09,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,1.2,mg larva-1 day-1,NA,NA,NA,NA,NA,Nagasaki Japan,colony,01/01/2001,2,decimal,32.75369383,129.8834187,Aedes albopictus,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,body size,average wing length of females that laid eggs after the 2nd blood meal,2.17,mm,0.04,0.04,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,0.15,mg larva-1 day-1,NA,NA,NA,NA,NA,Nagasaki Japan,colony,01/01/2001,2,decimal,32.75369383,129.8834187,Aedes albopictus,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,body size,average wing length of females that laid eggs after the 2nd blood meal,2.35,mm,0.05,0.05,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,0.15,mg larva-1 day-1,NA,NA,NA,NA,NA,Nagasaki Japan,colony,01/01/2001,2,decimal,32.75369383,129.8834187,Aedes albopictus,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,body size,average wing length of females that laid eggs after the 2nd blood meal,2.56,mm,0.13,0.13,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,1.2,mg larva-1 day-1,NA,NA,NA,NA,NA,Nagasaki Japan,colony,01/01/2001,2,decimal,32.75369383,129.8834187,Aedes albopictus,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,body size,average wing length of females that laid eggs after the 2nd blood meal,2.77,mm,0.11,0.11,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,1.2,mg larva-1 day-1,NA,NA,NA,NA,NA,Nagasaki Japan,colony,01/01/2001,2,decimal,32.75369383,129.8834187,Aedes albopictus,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,body size,average wing length of females that did not lay eggs after the 2nd blood meal,2.16,mm,0.06,0.06,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,0.15,mg larva-1 day-1,NA,NA,NA,NA,NA,Nagasaki Japan,colony,01/01/2001,2,decimal,32.75369383,129.8834187,Aedes albopictus,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,body size,average wing length of females that did not lay eggs after the 2nd blood meal,2.43,mm,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,0.15,mg larva-1 day-1,NA,NA,NA,NA,NA,Nagasaki Japan,colony,01/01/2001,2,decimal,32.75369383,129.8834187,Aedes albopictus,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,body size,average wing length of females that did not lay eggs after the 2nd blood meal,2.76,mm,0.07,0.07,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,1.2,mg larva-1 day-1,NA,NA,NA,NA,NA,Nagasaki Japan,colony,01/01/2001,2,decimal,32.75369383,129.8834187,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,body size,average wing length of females that laid eggs after the 3rd blood meal,2.12,mm,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,0.15,mg larva-1 day-1,NA,NA,NA,NA,NA,Nagasaki Japan,colony,01/01/2001,2,decimal,32.75369383,129.8834187,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,body size,average wing length of females that laid eggs after the 3rd blood meal,2.48,mm,0.06,0.06,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,0.15,mg larva-1 day-1,NA,NA,NA,NA,NA,Nagasaki Japan,colony,01/01/2001,2,decimal,32.75369383,129.8834187,Aedes albopictus,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,body size,average wing length of females that laid eggs after the 3rd blood meal,2.8,mm,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,1.2,mg larva-1 day-1,NA,NA,NA,NA,NA,Nagasaki Japan,colony,01/01/2001,2,decimal,32.75369383,129.8834187,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,body size,average wing length of females that did not lay eggs after the 3rd blood meal,2.2,mm,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,0.15,mg larva-1 day-1,NA,NA,NA,NA,NA,Nagasaki Japan,colony,01/01/2001,2,decimal,32.75369383,129.8834187,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,body size,average wing length of females that did not lay eggs after the 3rd blood meal,2.32,mm,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,0.15,mg larva-1 day-1,NA,NA,NA,NA,NA,Nagasaki Japan,colony,01/01/2001,2,decimal,32.75369383,129.8834187,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,body size,average wing length of females,2.35,mm,0.11,0.11,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,0.15,mg larva-1 day-1,NA,NA,NA,NA,NA,Singapore,colony,01/01/2006,2,decimal,1.275552318,103.8442347,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,body size,average wing length of females,2.64,mm,0.11,0.11,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,0.15,mg larva-1 day-1,NA,NA,NA,NA,NA,Singapore,colony,01/01/2006,2,decimal,1.275552318,103.8442347,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,body size,average wing length of females,2.8,mm,0.09,0.09,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,1.2,mg larva-1 day-1,NA,NA,NA,NA,NA,Singapore,colony,01/01/2006,2,decimal,1.275552318,103.8442347,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,body size,average wing length of females,3.21,mm,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,1.2,mg larva-1 day-1,NA,NA,NA,NA,NA,Singapore,colony,01/01/2006,2,decimal,1.275552318,103.8442347,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,body size,average wing length of females,2.12,mm,0.09,0.09,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,0.15,mg larva-1 day-1,NA,NA,NA,NA,NA,Nagasaki Japan,colony,01/01/2001,2,decimal,32.75369383,129.8834187,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,body size,average wing length of females,2.35,mm,0.08,0.08,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,0.15,mg larva-1 day-1,NA,NA,NA,NA,NA,Nagasaki Japan,colony,01/01/2001,2,decimal,32.75369383,129.8834187,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,body size,average wing length of females,2.49,mm,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,1.2,mg larva-1 day-1,NA,NA,NA,NA,NA,Nagasaki Japan,colony,01/01/2001,2,decimal,32.75369383,129.8834187,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,body size,average wing length of females,2.83,mm,0.09,0.09,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,1.2,mg larva-1 day-1,NA,NA,NA,NA,NA,Nagasaki Japan,colony,01/01/2001,2,decimal,32.75369383,129.8834187,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,reproductive potential,average number of ovarian follicles (primary follicles),51,ovarian follicles individual-1,12.28,12.28,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,0.15,mg larva-1 day-1,NA,NA,NA,NA,NA,Singapore,colony,01/01/2006,2,decimal,1.275552318,103.8442347,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,reproductive potential,average number of ovarian follicles (primary follicles),65.2,ovarian follicles individual-1,10.8,10.8,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,0.15,mg larva-1 day-1,NA,NA,NA,NA,NA,Singapore,colony,01/01/2006,2,decimal,1.275552318,103.8442347,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,20,celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,reproductive potential,average number of ovarian follicles (primary follicles),92.1,ovarian follicles individual-1,14.01,14.01,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,1.2,mg larva-1 day-1,NA,NA,NA,NA,NA,Singapore,colony,01/01/2006,2,decimal,1.275552318,103.8442347,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,reproductive potential,average number of ovarian follicles (primary follicles),109.3,ovarian follicles individual-1,16.87,16.87,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,1.2,mg larva-1 day-1,NA,NA,NA,NA,NA,Singapore,colony,01/01/2006,2,decimal,1.275552318,103.8442347,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,20,celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,reproductive potential,average number of ovarian follicles (primary follicles),50.5,ovarian follicles individual-1,13.18,13.18,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,0.15,mg larva-1 day-1,NA,NA,NA,NA,NA,Nagasaki Japan,colony,01/01/2001,2,decimal,32.75369383,129.8834187,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,reproductive potential,average number of ovarian follicles (primary follicles),73.1,ovarian follicles individual-1,9.97,9.97,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,0.15,mg larva-1 day-1,NA,NA,NA,NA,NA,Nagasaki Japan,colony,01/01/2001,2,decimal,32.75369383,129.8834187,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,reproductive potential,average number of ovarian follicles (primary follicles),84.3,ovarian follicles individual-1,7.38,7.38,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,1.2,mg larva-1 day-1,NA,NA,NA,NA,NA,Nagasaki Japan,colony,01/01/2001,2,decimal,32.75369383,129.8834187,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,reproductive potential,average number of ovarian follicles (primary follicles),151.1,ovarian follicles individual-1,19.05,19.05,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,1.2,mg larva-1 day-1,NA,NA,NA,NA,NA,Nagasaki Japan,colony,01/01/2001,2,decimal,32.75369383,129.8834187,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,fecundity,lifetime eggs per individual (eggs laid or retained in her ovaries),42.6,eggs individual-1,10.98,10.98,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,0.15,mg larva-1 day-1,NA,NA,NA,NA,NA,Singapore,colony,01/01/2006,2,decimal,1.283333,103.833333,Aedes aegypti,NA,NA,NA,66,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2012
NA,NA,fecundity,lifetime eggs per individual (eggs laid or retained in her ovaries),57.6,eggs individual-1,11.2,11.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,0.15,mg larva-1 day-1,NA,NA,NA,NA,NA,Singapore,colony,01/01/2006,2,decimal,1.283333,103.833333,Aedes aegypti,NA,NA,NA,66,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,20,celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2012
NA,NA,fecundity,lifetime eggs per individual (eggs laid or retained in her ovaries),91.9,eggs individual-1,20.57,20.57,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,1.2,mg larva-1 day-1,NA,NA,NA,NA,NA,Singapore,colony,01/01/2006,2,decimal,1.283333,103.833333,Aedes aegypti,NA,NA,NA,65,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2012
NA,NA,fecundity,lifetime eggs per individual (eggs laid or retained in her ovaries),107,eggs individual-1,15.47,15.47,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,1.2,mg larva-1 day-1,NA,NA,NA,NA,NA,Singapore,colony,01/01/2006,2,decimal,1.283333,103.833333,Aedes aegypti,NA,NA,NA,69,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,20,celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2012
NA,NA,fecundity,lifetime eggs per individual (eggs laid or retained in her ovaries),27.9,eggs individual-1,8.51,8.51,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,0.15,mg larva-1 day-1,NA,NA,NA,NA,NA,Nagasaki Japan,colony,01/01/2001,2,decimal,32.462035,129.52986,Aedes albopictus,NA,NA,NA,69,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2012
NA,NA,fecundity,lifetime eggs per individual (eggs laid or retained in her ovaries),33.2,eggs individual-1,11.52,11.52,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,0.15,mg larva-1 day-1,NA,NA,NA,NA,NA,Nagasaki Japan,colony,01/01/2001,2,decimal,32.462035,129.52986,Aedes albopictus,NA,NA,NA,69,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2012
NA,NA,fecundity,lifetime eggs per individual (eggs laid or retained in her ovaries),68.9,eggs individual-1,20.12,20.12,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,1.2,mg larva-1 day-1,NA,NA,NA,NA,NA,Nagasaki Japan,colony,01/01/2001,2,decimal,32.462035,129.52986,Aedes albopictus,NA,NA,NA,70,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2012
NA,NA,fecundity,lifetime eggs per individual (eggs laid or retained in her ovaries),103.3,eggs individual-1,22.66,22.66,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,1.2,mg larva-1 day-1,NA,NA,NA,NA,NA,Nagasaki Japan,colony,01/01/2001,2,decimal,32.462035,129.52986,Aedes albopictus,NA,NA,NA,70,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2012
NA,NA,realised reproductive output,percent of follicles that developed to eggs,83.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,0.15,mg larva-1 day-1,NA,NA,NA,NA,NA,Singapore,colony,01/01/2006,2,decimal,1.275552318,103.8442347,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,realised reproductive output,percent of follicles that developed to eggs,88.4,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,0.15,mg larva-1 day-1,NA,NA,NA,NA,NA,Singapore,colony,01/01/2006,2,decimal,1.275552318,103.8442347,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,realised reproductive output,percent of follicles that developed to eggs,99.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,1.2,mg larva-1 day-1,NA,NA,NA,NA,NA,Singapore,colony,01/01/2006,2,decimal,1.275552318,103.8442347,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,realised reproductive output,percent of follicles that developed to eggs,98,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,1.2,mg larva-1 day-1,NA,NA,NA,NA,NA,Singapore,colony,01/01/2006,2,decimal,1.275552318,103.8442347,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,realised reproductive output,percent of follicles that developed to eggs,55.3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,0.15,mg larva-1 day-1,NA,NA,NA,NA,NA,Nagasaki Japan,colony,01/01/2001,2,decimal,32.75369383,129.8834187,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,realised reproductive output,percent of follicles that developed to eggs,45.3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,0.15,mg larva-1 day-1,NA,NA,NA,NA,NA,Nagasaki Japan,colony,01/01/2001,2,decimal,32.75369383,129.8834187,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,low diet was 0.05 for 1st and 2nd instar 0.1 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,realised reproductive output,percent of follicles that developed to eggs,81.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,1.2,mg larva-1 day-1,NA,NA,NA,NA,NA,Nagasaki Japan,colony,01/01/2001,2,decimal,32.75369383,129.8834187,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar,TRUE,01/01/2012
NA,NA,realised reproductive output,percent of follicles that developed to eggs,68.4,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet concentration,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar. secondstressor value is the sum total of these amounts,1.2,mg larva-1 day-1,NA,NA,NA,NA,NA,Nagasaki Japan,colony,01/01/2001,2,decimal,32.75369383,129.8834187,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Farjana and Tuno. 2012. Effect of body size on multiple blood feeding and egg retention of Aedes aegypti (L.) and Aedes albopictus (Skuse) (Diptera: Culicidae). Medical Entomology and Zoology 63:2,10.7601/mez.63.123,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,high diet was 0.4 for 1st and 2nd instar and 0.8 for 3rd and 4th instar,TRUE,01/01/2012
NA,FAJ001,mortality,mean percent not surviving life stage,12.37,percent,2.69,2.69,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,0 = low (0.05 mg per larvae for L1 and L2 and 0.1 mg per larvae per day for L3 and L4) 1 = high (0.2 per larvae per day for L1 and L2 and 0.5 mg per larvae per day for L3 and L4),0,NA,NA,NA,NA,NA,NA,Moshi Tanzania,colony,NA,0,decimal,-3.343889,37.335278,Aedes aegypti,NA,NA,NA,88,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Farjana et al. 2012. Effects of temperature and diet on development and interspecies competition in Aedes aegypti and Aedes albopictus. Med Vet. Entomol. 26,10.1111/j.1365-2915.2011.00971.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=100),TRUE,01/01/2012
NA,FAJ001,mortality,mean percent not surviving life stage,10.22,percent,2.69,2.69,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,0 = low (0.05 mg per larvae for L1 and L2 and 0.1 mg per larvae per day for L3 and L4) 1 = high (0.2 per larvae per day for L1 and L2 and 0.5 mg per larvae per day for L3 and L4),1,NA,NA,NA,NA,NA,NA,Moshi Tanzania,colony,NA,0,decimal,-3.343889,37.335278,Aedes aegypti,NA,NA,NA,90,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Farjana et al. 2012. Effects of temperature and diet on development and interspecies competition in Aedes aegypti and Aedes albopictus. Med Vet. Entomol. 26,10.1111/j.1365-2915.2011.00971.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=100),TRUE,01/01/2012
NA,FAJ001,mortality,mean percent not surviving life stage,8.6,percent,1.61,1.61,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,0 = low (0.05 mg per larvae for L1 and L2 and 0.1 mg per larvae per day for L3 and L4) 1 = high (0.2 per larvae per day for L1 and L2 and 0.5 mg per larvae per day for L3 and L4),0,NA,NA,NA,NA,NA,NA,Moshi Tanzania,colony,NA,0,decimal,-3.343889,37.335278,Aedes aegypti,NA,NA,NA,91,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Farjana et al. 2012. Effects of temperature and diet on development and interspecies competition in Aedes aegypti and Aedes albopictus. Med Vet. Entomol. 26,10.1111/j.1365-2915.2011.00971.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=100),TRUE,01/01/2012
NA,FAJ001,mortality,mean percent not surviving life stage,2.69,percent,0.54,0.54,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,0 = low (0.05 mg per larvae for L1 and L2 and 0.1 mg per larvae per day for L3 and L4) 1 = high (0.2 per larvae per day for L1 and L2 and 0.5 mg per larvae per day for L3 and L4),1,NA,NA,NA,NA,NA,NA,Moshi Tanzania,colony,NA,0,decimal,-3.343889,37.335278,Aedes aegypti,NA,NA,NA,97,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Farjana et al. 2012. Effects of temperature and diet on development and interspecies competition in Aedes aegypti and Aedes albopictus. Med Vet. Entomol. 26,10.1111/j.1365-2915.2011.00971.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=100),TRUE,01/01/2012
NA,FAJ001,mortality,mean percent not surviving life stage,10.22,percent,3.23,3.23,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,0 = low (0.05 mg per larvae for L1 and L2 and 0.1 mg per larvae per day for L3 and L4) 1 = high (0.2 per larvae per day for L1 and L2 and 0.5 mg per larvae per day for L3 and L4),0,NA,NA,NA,NA,NA,NA,Moshi Tanzania,colony,NA,0,decimal,-3.343889,37.335278,Aedes aegypti,NA,NA,NA,90,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Farjana et al. 2012. Effects of temperature and diet on development and interspecies competition in Aedes aegypti and Aedes albopictus. Med Vet. Entomol. 26,10.1111/j.1365-2915.2011.00971.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=100),TRUE,01/01/2012
NA,FAJ001,mortality,mean percent not surviving life stage,7.53,percent,3.23,3.23,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,0 = low (0.05 mg per larvae for L1 and L2 and 0.1 mg per larvae per day for L3 and L4) 1 = high (0.2 per larvae per day for L1 and L2 and 0.5 mg per larvae per day for L3 and L4),1,NA,NA,NA,NA,NA,NA,Moshi Tanzania,colony,NA,0,decimal,-3.343889,37.335278,Aedes aegypti,NA,NA,NA,92,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Farjana et al. 2012. Effects of temperature and diet on development and interspecies competition in Aedes aegypti and Aedes albopictus. Med Vet. Entomol. 26,10.1111/j.1365-2915.2011.00971.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=100),TRUE,01/01/2012
NA,FAJ001,mortality,mean percent not surviving life stage,52.69,percent,2.69,2.69,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,0 = low (0.05 mg per larvae for L1 and L2 and 0.1 mg per larvae per day for L3 and L4) 1 = high (0.2 per larvae per day for L1 and L2 and 0.5 mg per larvae per day for L3 and L4),0,NA,NA,NA,NA,NA,NA,Moshi Tanzania,colony,NA,0,decimal,-3.343889,37.335278,Aedes aegypti,NA,NA,NA,47,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Farjana et al. 2012. Effects of temperature and diet on development and interspecies competition in Aedes aegypti and Aedes albopictus. Med Vet. Entomol. 26,10.1111/j.1365-2915.2011.00971.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=100),TRUE,01/01/2012
NA,FAJ001,mortality,mean percent not surviving life stage,80.65,percent,3.76,3.76,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,0 = low (0.05 mg per larvae for L1 and L2 and 0.1 mg per larvae per day for L3 and L4) 1 = high (0.2 per larvae per day for L1 and L2 and 0.5 mg per larvae per day for L3 and L4),1,NA,NA,NA,NA,NA,NA,Moshi Tanzania,colony,NA,0,decimal,-3.343889,37.335278,Aedes aegypti,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Farjana et al. 2012. Effects of temperature and diet on development and interspecies competition in Aedes aegypti and Aedes albopictus. Med Vet. Entomol. 26,10.1111/j.1365-2915.2011.00971.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=100),TRUE,01/01/2012
NA,FAJ002,mortality,mean percent not surviving life stage,9.14,percent,2.69,2.69,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,0 = low (0.05 mg per larvae for L1 and L2 and 0.1 mg per larvae per day for L3 and L4) 1 = high (0.2 per larvae per day for L1 and L2 and 0.5 mg per larvae per day for L3 and L4),0,NA,NA,NA,NA,NA,NA,Nagasaki Japan,colony,NA,0,decimal,32.772222,129.869444,Aedes albopictus,NA,NA,NA,91,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Farjana et al. 2012. Effects of temperature and diet on development and interspecies competition in Aedes aegypti and Aedes albopictus. Med Vet. Entomol. 26,10.1111/j.1365-2915.2011.00971.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=100),TRUE,01/01/2012
NA,FAJ002,mortality,mean percent not surviving life stage,3.23,percent,1.61,1.61,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,0 = low (0.05 mg per larvae for L1 and L2 and 0.1 mg per larvae per day for L3 and L4) 1 = high (0.2 per larvae per day for L1 and L2 and 0.5 mg per larvae per day for L3 and L4),1,NA,NA,NA,NA,NA,NA,Nagasaki Japan,colony,NA,0,decimal,32.772222,129.869444,Aedes albopictus,NA,NA,NA,97,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Farjana et al. 2012. Effects of temperature and diet on development and interspecies competition in Aedes aegypti and Aedes albopictus. Med Vet. Entomol. 26,10.1111/j.1365-2915.2011.00971.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=100),TRUE,01/01/2012
NA,FAJ002,mortality,mean percent not surviving life stage,4.84,percent,2.15,2.15,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,0 = low (0.05 mg per larvae for L1 and L2 and 0.1 mg per larvae per day for L3 and L4) 1 = high (0.2 per larvae per day for L1 and L2 and 0.5 mg per larvae per day for L3 and L4),0,NA,NA,NA,NA,NA,NA,Nagasaki Japan,colony,NA,0,decimal,32.772222,129.869444,Aedes albopictus,NA,NA,NA,95,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Farjana et al. 2012. Effects of temperature and diet on development and interspecies competition in Aedes aegypti and Aedes albopictus. Med Vet. Entomol. 26,10.1111/j.1365-2915.2011.00971.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=100),TRUE,01/01/2012
NA,FAJ002,mortality,mean percent not surviving life stage,3.76,percent,1.08,1.08,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,0 = low (0.05 mg per larvae for L1 and L2 and 0.1 mg per larvae per day for L3 and L4) 1 = high (0.2 per larvae per day for L1 and L2 and 0.5 mg per larvae per day for L3 and L4),1,NA,NA,NA,NA,NA,NA,Nagasaki Japan,colony,NA,0,decimal,32.772222,129.869444,Aedes albopictus,NA,NA,NA,96,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Farjana et al. 2012. Effects of temperature and diet on development and interspecies competition in Aedes aegypti and Aedes albopictus. Med Vet. Entomol. 26,10.1111/j.1365-2915.2011.00971.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=100),TRUE,01/01/2012
NA,FAJ002,mortality,mean percent not surviving life stage,8.06,percent,5.38,5.38,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,0 = low (0.05 mg per larvae for L1 and L2 and 0.1 mg per larvae per day for L3 and L4) 1 = high (0.2 per larvae per day for L1 and L2 and 0.5 mg per larvae per day for L3 and L4),0,NA,NA,NA,NA,NA,NA,Nagasaki Japan,colony,NA,0,decimal,32.772222,129.869444,Aedes albopictus,NA,NA,NA,92,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Farjana et al. 2012. Effects of temperature and diet on development and interspecies competition in Aedes aegypti and Aedes albopictus. Med Vet. Entomol. 26,10.1111/j.1365-2915.2011.00971.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=100),TRUE,01/01/2012
NA,FAJ002,mortality,mean percent not surviving life stage,15.05,percent,3.23,3.23,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,0 = low (0.05 mg per larvae for L1 and L2 and 0.1 mg per larvae per day for L3 and L4) 1 = high (0.2 per larvae per day for L1 and L2 and 0.5 mg per larvae per day for L3 and L4),1,NA,NA,NA,NA,NA,NA,Nagasaki Japan,colony,NA,0,decimal,32.772222,129.869444,Aedes albopictus,NA,NA,NA,85,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Farjana et al. 2012. Effects of temperature and diet on development and interspecies competition in Aedes aegypti and Aedes albopictus. Med Vet. Entomol. 26,10.1111/j.1365-2915.2011.00971.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=100),TRUE,01/01/2012
NA,FAJ002,mortality,mean percent not surviving life stage,57.53,percent,6.45,6.45,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,0 = low (0.05 mg per larvae for L1 and L2 and 0.1 mg per larvae per day for L3 and L4) 1 = high (0.2 per larvae per day for L1 and L2 and 0.5 mg per larvae per day for L3 and L4),0,NA,NA,NA,NA,NA,NA,Nagasaki Japan,colony,NA,0,decimal,32.772222,129.869444,Aedes albopictus,NA,NA,NA,42,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Farjana et al. 2012. Effects of temperature and diet on development and interspecies competition in Aedes aegypti and Aedes albopictus. Med Vet. Entomol. 26,10.1111/j.1365-2915.2011.00971.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=100),TRUE,01/01/2012
NA,FAJ002,mortality,mean percent not surviving life stage,81.72,percent,4.84,4.84,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,0 = low (0.05 mg per larvae for L1 and L2 and 0.1 mg per larvae per day for L3 and L4) 1 = high (0.2 per larvae per day for L1 and L2 and 0.5 mg per larvae per day for L3 and L4),1,NA,NA,NA,NA,NA,NA,Nagasaki Japan,colony,NA,0,decimal,32.772222,129.869444,Aedes albopictus,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Farjana et al. 2012. Effects of temperature and diet on development and interspecies competition in Aedes aegypti and Aedes albopictus. Med Vet. Entomol. 26,10.1111/j.1365-2915.2011.00971.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=100),TRUE,01/01/2012
NA,NA,development time,mean duration of life stage,8.8,days,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1-L4,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,2.7,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,14.2,days,0.4,0.4,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (egg to adult),NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,2.5,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 and L2,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,1.7,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,2.8,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,7,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1-L4,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,2,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,10.7,days,0.4,0.4,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (egg to adult),NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,2.5,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 and L2,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,1.3,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,1.8,days,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,5.7,days,0.4,0.4,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1-L4,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,1,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,7.8,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (egg to adult),NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,DM01,development time,average duration of life stage,33.6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Resistencia Argentina,field,NA,0,decimal,-27.450217,-58.99277,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),female,14,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM01,development time,average duration of life stage,31.3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Ciudad Autonoma de Buenos Aires Argentina,field,NA,0,decimal,-34.603683,-58.38156,Aedes aegypti,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),female,14,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM01,development time,average duration of life stage,32.2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,San Bernardo del Tuyu Argentina,field,NA,0,decimal,-36.686367,-56.679167,Aedes aegypti,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),female,14,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM01,development time,average duration of life stage,19.1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Resistencia Argentina,field,NA,0,decimal,-27.450217,-58.99277,Aedes aegypti,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),female,18.5,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM01,development time,average duration of life stage,19.3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Ciudad Autonoma de Buenos Aires Argentina,field,NA,0,decimal,-34.603683,-58.38156,Aedes aegypti,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),female,18.5,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM01,development time,average duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,San Bernardo del Tuyu Argentina,field,NA,0,decimal,-36.686367,-56.679167,Aedes aegypti,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),female,18.5,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM01,development time,average duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Resistencia Argentina,field,NA,0,decimal,-27.450217,-58.99277,Aedes aegypti,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),female,24,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM01,development time,average duration of life stage,12.6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Ciudad Autonoma de Buenos Aires Argentina,field,NA,0,decimal,-34.603683,-58.38156,Aedes aegypti,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),female,24,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM01,development time,average duration of life stage,12.8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,San Bernardo del Tuyu Argentina,field,NA,0,decimal,-36.686367,-56.679167,Aedes aegypti,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),female,24,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM01,development time,average duration of life stage,28.8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Resistencia Argentina,field,NA,0,decimal,-27.450217,-58.99277,Aedes aegypti,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),male,14,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM01,development time,average duration of life stage,29.8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Ciudad Autonoma de Buenos Aires Argentina,field,NA,0,decimal,-34.603683,-58.38156,Aedes aegypti,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),male,14,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM01,development time,average duration of life stage,28.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,San Bernardo del Tuyu Argentina,field,NA,0,decimal,-36.686367,-56.679167,Aedes aegypti,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),male,14,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM01,development time,average duration of life stage,17.1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Resistencia Argentina,field,NA,0,decimal,-27.450217,-58.99277,Aedes aegypti,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),male,18.5,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM01,development time,average duration of life stage,17.4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Ciudad Autonoma de Buenos Aires Argentina,field,NA,0,decimal,-34.603683,-58.38156,Aedes aegypti,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),male,18.5,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM01,development time,average duration of life stage,16.4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,San Bernardo del Tuyu Argentina,field,NA,0,decimal,-36.686367,-56.679167,Aedes aegypti,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),male,18.5,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM01,development time,average duration of life stage,10.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Resistencia Argentina,field,NA,0,decimal,-27.450217,-58.99277,Aedes aegypti,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),male,24,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM01,development time,average duration of life stage,10.4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Ciudad Autonoma de Buenos Aires Argentina,field,NA,0,decimal,-34.603683,-58.38156,Aedes aegypti,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),male,24,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM01,development time,average duration of life stage,10.6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,San Bernardo del Tuyu Argentina,field,NA,0,decimal,-36.686367,-56.679167,Aedes aegypti,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),male,24,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM02,development time,average duration of life stage,4.7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Ciudad Autonoma de Buenos Aires Argentina,field,NA,0,decimal,-34.603683,-58.38156,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,14,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM02,development time,average duration of life stage,4.6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Resistencia Argentina,field,NA,0,decimal,-27.450217,-58.99277,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,14,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM02,development time,average duration of life stage,4.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,San Bernardo del Tuyu Argentina,field,NA,0,decimal,-36.686367,-56.679167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,14,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM02,development time,average duration of life stage,3.1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Ciudad Autonoma de Buenos Aires Argentina,field,NA,0,decimal,-34.603683,-58.38156,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,18.5,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM02,development time,average duration of life stage,3.3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Resistencia Argentina,field,NA,0,decimal,-27.450217,-58.99277,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,18.5,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM02,development time,average duration of life stage,2.9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,San Bernardo del Tuyu Argentina,field,NA,0,decimal,-36.686367,-56.679167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,18.5,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,NA,survival,percent surviving life stage,81.1,percent,3.2,3.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Instituto Oswaldo Cruz-Fiocruz Rio de Janeiro Brasil,colony (Rockefeller strain),NA,0,NA,NA,NA,Aedes aegypti,Yellow fever mosquito,NA,NA,600,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farnesi et al. 2009. Embryonic development of Aedes aegypti (Diptera: Culicidae): Influence of different constant temperatures. Mem. Inst. Oswaldo Cruz. 104: 124-126,10.1590/s0074-02762009000100020,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,NA,survival,percent surviving life stage,93.9,percent,3.1,3.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Instituto Oswaldo Cruz-Fiocruz Rio de Janeiro Brasil,colony (Rockefeller strain),NA,0,NA,NA,NA,Aedes aegypti,Yellow fever mosquito,NA,NA,360,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farnesi et al. 2009. Embryonic development of Aedes aegypti (Diptera: Culicidae): Influence of different constant temperatures. Mem. Inst. Oswaldo Cruz. 104: 124-126,10.1590/s0074-02762009000100020,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,NA,survival,percent surviving life stage,96,percent,2,2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Instituto Oswaldo Cruz-Fiocruz Rio de Janeiro Brasil,colony (Rockefeller strain),NA,0,NA,NA,NA,Aedes aegypti,Yellow fever mosquito,NA,NA,360,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farnesi et al. 2009. Embryonic development of Aedes aegypti (Diptera: Culicidae): Influence of different constant temperatures. Mem. Inst. Oswaldo Cruz. 104: 124-126,10.1590/s0074-02762009000100020,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,NA,survival,percent surviving life stage,93.3,percent,3.6,3.6,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Instituto Oswaldo Cruz-Fiocruz Rio de Janeiro Brasil,colony (Rockefeller strain),NA,0,NA,NA,NA,Aedes aegypti,Yellow fever mosquito,NA,NA,360,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farnesi et al. 2009. Embryonic development of Aedes aegypti (Diptera: Culicidae): Influence of different constant temperatures. Mem. Inst. Oswaldo Cruz. 104: 124-126,10.1590/s0074-02762009000100020,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,NA,survival,percent surviving life stage,82.8,percent,5.3,5.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Instituto Oswaldo Cruz-Fiocruz Rio de Janeiro Brasil,colony (Rockefeller strain),NA,0,NA,NA,NA,Aedes aegypti,Yellow fever mosquito,NA,NA,360,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farnesi et al. 2009. Embryonic development of Aedes aegypti (Diptera: Culicidae): Influence of different constant temperatures. Mem. Inst. Oswaldo Cruz. 104: 124-126,10.1590/s0074-02762009000100020,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,NA,survival,percent surviving life stage,48.5,percent,9.4,9.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Instituto Oswaldo Cruz-Fiocruz Rio de Janeiro Brasil,colony (Rockefeller strain),NA,0,NA,NA,NA,Aedes aegypti,Yellow fever mosquito,NA,NA,300,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farnesi et al. 2009. Embryonic development of Aedes aegypti (Diptera: Culicidae): Influence of different constant temperatures. Mem. Inst. Oswaldo Cruz. 104: 124-126,10.1590/s0074-02762009000100020,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,NA,survival,percent surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Instituto Oswaldo Cruz-Fiocruz Rio de Janeiro Brasil,colony (Rockefeller strain),NA,0,NA,NA,NA,Aedes aegypti,Yellow fever mosquito,NA,NA,300,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farnesi et al. 2009. Embryonic development of Aedes aegypti (Diptera: Culicidae): Influence of different constant temperatures. Mem. Inst. Oswaldo Cruz. 104: 124-126,10.1590/s0074-02762009000100020,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,FKS001,critical photoperiod period,minimum light exposure per day required for eggs,12.55,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,elevation,10,metres,NA,NA,NA,NA,NA,Okinawa Japan,field (F3),NA,0,decimal,26.26734898,127.8317196,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS001,critical photoperiod period,minimum light exposure per day required for eggs,13.39,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,elevation,50,metres,NA,NA,NA,NA,NA,Kagoshima Japan,field (F2),NA,0,decimal,31.61143164,130.5498629,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS001,critical photoperiod period,minimum light exposure per day required for eggs,13.57,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,elevation,50,metres,NA,NA,NA,NA,NA,Kagoshima Japan,field (F2),NA,0,decimal,31.61143164,130.5498629,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS001,critical photoperiod period,minimum light exposure per day required for eggs,13.43,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,elevation,10,metres,NA,NA,NA,NA,NA,Nagasaki Japan,field (F2),NA,0,decimal,32.75560714,129.8765381,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS001,critical photoperiod period,minimum light exposure per day required for eggs,13.4,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,elevation,100,metres,NA,NA,NA,NA,NA,Kuboizumi Japan,field (F2),NA,0,decimal,33.32049735,130.3252611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS001,critical photoperiod period,minimum light exposure per day required for eggs,13.6,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,elevation,100,metres,NA,NA,NA,NA,NA,Seburi Japan,field (F2),NA,0,decimal,33.44732397,130.3700125,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS001,critical photoperiod period,minimum light exposure per day required for eggs,13.46,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,elevation,10,metres,NA,NA,NA,NA,NA,Kabeshima Japan,field (F2),NA,0,decimal,34.23495247,132.2649256,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS001,critical photoperiod period,minimum light exposure per day required for eggs,13.56,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,elevation,10,metres,NA,NA,NA,NA,NA,Kobe Japan,field (F2),NA,0,decimal,34.69760141,135.1894551,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS001,critical photoperiod period,minimum light exposure per day required for eggs,13.91,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,elevation,10,metres,NA,NA,NA,NA,NA,Zama Japan,field (F3),NA,0,decimal,35.48836049,139.4086406,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS001,critical photoperiod period,minimum light exposure per day required for eggs,13.98,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,elevation,10,metres,NA,NA,NA,NA,NA,Tokyo Japan,field (F2),NA,0,decimal,35.69412286,139.7689307,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS001,critical photoperiod period,minimum light exposure per day required for eggs,13.92,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,elevation,10,metres,NA,NA,NA,NA,NA,Setagaya Japan,field (F2),NA,0,decimal,35.64083281,139.6339842,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS001,critical photoperiod period,minimum light exposure per day required for eggs,13.92,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,elevation,10,metres,NA,NA,NA,NA,NA,Sendai Japan,colony (1 yr old),NA,0,decimal,38.2817587,140.8662833,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS001,critical photoperiod period,minimum light exposure per day required for eggs,13.4,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,elevation,30,metres,NA,NA,NA,NA,NA,Hidalgo Texas USA,field (F3),NA,0,decimal,26.1,-98.263068,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS001,critical photoperiod period,minimum light exposure per day required for eggs,13.1,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,elevation,0,metres,NA,NA,NA,NA,NA,Houston Texas USA,field (F4),NA,0,decimal,29.76418402,-95.36786543,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS001,critical photoperiod period,minimum light exposure per day required for eggs,13.5,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,elevation,0,metres,NA,NA,NA,NA,NA,New Orleans Lousiana USA,field (F3),NA,0,decimal,29.95,-90.071533,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS001,critical photoperiod period,minimum light exposure per day required for eggs,13.25,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,elevation,0,metres,NA,NA,NA,NA,NA,Jacksonville Florida USA,field (F3),NA,0,decimal,30.33153898,-81.65981992,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS001,critical photoperiod period,minimum light exposure per day required for eggs,13.37,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,elevation,0,metres,NA,NA,NA,NA,NA,Savannah Georgia USA,field (F2),NA,0,decimal,32.07996699,-81.09413073,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS001,critical photoperiod period,minimum light exposure per day required for eggs,13.62,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,elevation,70,metres,NA,NA,NA,NA,NA,Memphis Tennessee USA,field (F1),NA,0,decimal,35.1496579,-90.04928918,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS001,critical photoperiod period,minimum light exposure per day required for eggs,14.1,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,elevation,100,metres,NA,NA,NA,NA,NA,Rockingham North Carolina USA,field (F3),NA,0,decimal,36.40973624,-79.77439647,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS001,critical photoperiod period,minimum light exposure per day required for eggs,13.67,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,elevation,0,metres,NA,NA,NA,NA,NA,Carolina Beach North Carolina USA,field (F3),NA,0,decimal,34.03630209,-77.89776246,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS001,critical photoperiod period,minimum light exposure per day required for eggs,13.5,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,elevation,300,metres,NA,NA,NA,NA,NA,Lexington Kentucky USA,field (F3),NA,0,decimal,38.03851589,-84.5174006,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS001,critical photoperiod period,minimum light exposure per day required for eggs,13.8,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,elevation,120,metres,NA,NA,NA,NA,NA,Evansville Indiana USA,field (F2),NA,0,decimal,37.97288167,-87.57025801,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS001,critical photoperiod period,minimum light exposure per day required for eggs,13.6,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,elevation,130,metres,NA,NA,NA,NA,NA,East St. Louis Illinois USA,field (F1),NA,0,decimal,38.62438398,-90.15057254,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS001,critical photoperiod period,minimum light exposure per day required for eggs,13.75,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,elevation,12,metres,NA,NA,NA,NA,NA,Milford Delawere USA,field (F3),NA,0,decimal,38.91312104,-75.42948988,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS001,critical photoperiod period,minimum light exposure per day required for eggs,13.7,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,elevation,0,metres,NA,NA,NA,NA,NA,Baltimore Maryland USA,field (F3),NA,0,decimal,39.29226219,-76.61027477,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS001,critical photoperiod period,minimum light exposure per day required for eggs,14.2,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,elevation,305,metres,NA,NA,NA,NA,NA,New Alsace Indiana USA,field (F2),NA,0,decimal,39.23470573,-85.00309848,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS001,critical photoperiod period,minimum light exposure per day required for eggs,13.8,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,elevation,230,metres,NA,NA,NA,NA,NA,Indianapolis Indiana USA,field (F3),NA,0,decimal,39.79,-86.148003,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS001,critical photoperiod period,minimum light exposure per day required for eggs,13.75,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,elevation,245,metres,NA,NA,NA,NA,NA,Oak Hill Ohio USA,field (F3),NA,0,decimal,38.89396738,-82.57300738,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS001,critical photoperiod period,minimum light exposure per day required for eggs,13.4,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,elevation,225,metres,NA,NA,NA,NA,NA,Chicago Illinois USA,field (F2),NA,0,decimal,41.88,-87.623177,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS002,survival,percentage of eggs hatching as a function of temperature and photoperiod (secondstressor),7.02,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,12.01,hours,NA,NA,NA,NA,NA,New Orleans Lousiana USA,field (F3),NA,0,decimal,29.95,-90.071533,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a-c,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS002,survival,percentage of eggs hatching as a function of temperature and photoperiod (secondstressor),28.07,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,12.51,hours,NA,NA,NA,NA,NA,New Orleans Lousiana USA,field (F3),NA,0,decimal,29.95,-90.071533,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a-c,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS002,survival,percentage of eggs hatching as a function of temperature and photoperiod (secondstressor),8.77,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,13.01,hours,NA,NA,NA,NA,NA,New Orleans Lousiana USA,field (F3),NA,0,decimal,29.95,-90.071533,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a-c,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS002,survival,percentage of eggs hatching as a function of temperature and photoperiod (secondstressor),49.56,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,13.28,hours,NA,NA,NA,NA,NA,New Orleans Lousiana USA,field (F3),NA,0,decimal,29.95,-90.071533,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a-c,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS002,survival,percentage of eggs hatching as a function of temperature and photoperiod (secondstressor),98.68,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,13.53,hours,NA,NA,NA,NA,NA,New Orleans Lousiana USA,field (F3),NA,0,decimal,29.95,-90.071533,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a-c,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS002,survival,percentage of eggs hatching as a function of temperature and photoperiod (secondstressor),96.05,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,13.77,hours,NA,NA,NA,NA,NA,New Orleans Lousiana USA,field (F3),NA,0,decimal,29.95,-90.071533,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a-c,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS002,survival,percentage of eggs hatching as a function of temperature and photoperiod (secondstressor),90.35,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,duration interactor1 was exposed to light per day,14,hours,NA,NA,NA,NA,NA,New Orleans Lousiana USA,field (F3),NA,0,decimal,29.95,-90.071533,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a-c,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS002,survival,percentage of eggs hatching as a function of temperature and photoperiod (secondstressor),90.79,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,15.02,hours,NA,NA,NA,NA,NA,New Orleans Lousiana USA,field (F3),NA,0,decimal,29.95,-90.071533,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a-c,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS002,survival,percentage of eggs hatching as a function of temperature and photoperiod (secondstressor),26.49,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,12,hours,NA,NA,NA,NA,NA,New Orleans Lousiana USA,field (F3),NA,0,decimal,29.95,-90.071533,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a-c,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS002,survival,percentage of eggs hatching as a function of temperature and photoperiod (secondstressor),50.39,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,13,hours,NA,NA,NA,NA,NA,New Orleans Lousiana USA,field (F3),NA,0,decimal,29.95,-90.071533,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a-c,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS002,survival,percentage of eggs hatching as a function of temperature and photoperiod (secondstressor),9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,13.26,hours,NA,NA,NA,NA,NA,New Orleans Lousiana USA,field (F3),NA,0,decimal,29.95,-90.071533,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a-c,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS002,survival,percentage of eggs hatching as a function of temperature and photoperiod (secondstressor),90.53,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,13.51,hours,NA,NA,NA,NA,NA,New Orleans Lousiana USA,field (F3),NA,0,decimal,29.95,-90.071533,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a-c,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS002,survival,percentage of eggs hatching as a function of temperature and photoperiod (secondstressor),80.43,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,13.76,hours,NA,NA,NA,NA,NA,New Orleans Lousiana USA,field (F3),NA,0,decimal,29.95,-90.071533,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a-c,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS002,survival,percentage of eggs hatching as a function of temperature and photoperiod (secondstressor),86.18,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,duration interactor1 was exposed to light per day,14,hours,NA,NA,NA,NA,NA,New Orleans Lousiana USA,field (F3),NA,0,decimal,29.95,-90.071533,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a-c,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS002,survival,percentage of eggs hatching as a function of temperature and photoperiod (secondstressor),99.95,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,15,hours,NA,NA,NA,NA,NA,New Orleans Lousiana USA,field (F3),NA,0,decimal,29.95,-90.071533,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a-c,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS002,survival,percentage of eggs hatching as a function of temperature and photoperiod (secondstressor),75.44,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,12.01,hours,NA,NA,NA,NA,NA,New Orleans Lousiana USA,field (F3),NA,0,decimal,29.95,-90.071533,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a-c,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS002,survival,percentage of eggs hatching as a function of temperature and photoperiod (secondstressor),72.37,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,13.02,hours,NA,NA,NA,NA,NA,New Orleans Lousiana USA,field (F3),NA,0,decimal,29.95,-90.071533,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a-c,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS002,survival,percentage of eggs hatching as a function of temperature and photoperiod (secondstressor),45.61,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,13.27,hours,NA,NA,NA,NA,NA,New Orleans Lousiana USA,field (F3),NA,0,decimal,29.95,-90.071533,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a-c,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS002,survival,percentage of eggs hatching as a function of temperature and photoperiod (secondstressor),82.02,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,13.53,hours,NA,NA,NA,NA,NA,New Orleans Lousiana USA,field (F3),NA,0,decimal,29.95,-90.071533,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a-c,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS002,survival,percentage of eggs hatching as a function of temperature and photoperiod (secondstressor),84.65,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,13.77,hours,NA,NA,NA,NA,NA,New Orleans Lousiana USA,field (F3),NA,0,decimal,29.95,-90.071533,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a-c,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS002,survival,percentage of eggs hatching as a function of temperature and photoperiod (secondstressor),97.81,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,duration interactor1 was exposed to light per day,14,hours,NA,NA,NA,NA,NA,New Orleans Lousiana USA,field (F3),NA,0,decimal,29.95,-90.071533,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a-c,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS002,survival,percentage of eggs hatching as a function of temperature and photoperiod (secondstressor),98.68,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,15.03,hours,NA,NA,NA,NA,NA,New Orleans Lousiana USA,field (F3),NA,0,decimal,29.95,-90.071533,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a-c,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS003,survival,percentage of eggs hatching as a function of temperature and photoperiod,1.81,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,12,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,field (F3),NA,0,decimal,39.79,-86.148003,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3e-g,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS003,survival,percentage of eggs hatching as a function of temperature and photoperiod,3.18,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,12.5,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,field (F3),NA,0,decimal,39.79,-86.148003,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3e-g,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS003,survival,percentage of eggs hatching as a function of temperature and photoperiod,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,13,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,field (F3),NA,0,decimal,39.79,-86.148003,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3e-g,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS003,survival,percentage of eggs hatching as a function of temperature and photoperiod,0.19,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,13.25,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,field (F3),NA,0,decimal,39.79,-86.148003,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3e-g,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS003,survival,percentage of eggs hatching as a function of temperature and photoperiod,9.43,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,13.51,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,field (F3),NA,0,decimal,39.79,-86.148003,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3e-g,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS003,survival,percentage of eggs hatching as a function of temperature and photoperiod,30.95,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,13.75,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,field (F3),NA,0,decimal,39.79,-86.148003,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3e-g,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS003,survival,percentage of eggs hatching as a function of temperature and photoperiod,81.85,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,duration interactor1 was exposed to light per day,14,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,field (F3),NA,0,decimal,39.79,-86.148003,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3e-g,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS003,survival,percentage of eggs hatching as a function of temperature and photoperiod,99.45,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,14.53,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,field (F3),NA,0,decimal,39.79,-86.148003,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3e-g,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS003,survival,percentage of eggs hatching as a function of temperature and photoperiod,97.75,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,15.03,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,field (F3),NA,0,decimal,39.79,-86.148003,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3e-g,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS003,survival,percentage of eggs hatching as a function of temperature and photoperiod,7.93,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,12,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,field (F3),NA,0,decimal,39.79,-86.148003,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3e-g,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS003,survival,percentage of eggs hatching as a function of temperature and photoperiod,7.05,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,13,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,field (F3),NA,0,decimal,39.79,-86.148003,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3e-g,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS003,survival,percentage of eggs hatching as a function of temperature and photoperiod,5.73,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,13.26,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,field (F3),NA,0,decimal,39.79,-86.148003,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3e-g,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS003,survival,percentage of eggs hatching as a function of temperature and photoperiod,22.91,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,13.5,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,field (F3),NA,0,decimal,39.79,-86.148003,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3e-g,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS003,survival,percentage of eggs hatching as a function of temperature and photoperiod,20.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,13.75,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,field (F3),NA,0,decimal,39.79,-86.148003,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3e-g,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS003,survival,percentage of eggs hatching as a function of temperature and photoperiod,79.74,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,duration interactor1 was exposed to light per day,14,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,field (F3),NA,0,decimal,39.79,-86.148003,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3e-g,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS003,survival,percentage of eggs hatching as a function of temperature and photoperiod,67.84,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,15.02,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,field (F3),NA,0,decimal,39.79,-86.148003,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3e-g,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS003,survival,percentage of eggs hatching as a function of temperature and photoperiod,94.81,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,11.99,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,field (F3),NA,0,decimal,39.79,-86.148003,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3e-g,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS003,survival,percentage of eggs hatching as a function of temperature and photoperiod,98.01,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,13.26,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,field (F3),NA,0,decimal,39.79,-86.148003,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3e-g,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS003,survival,percentage of eggs hatching as a function of temperature and photoperiod,90.61,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,13.5,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,field (F3),NA,0,decimal,39.79,-86.148003,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3e-g,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS003,survival,percentage of eggs hatching as a function of temperature and photoperiod,85.4,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,13.75,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,field (F3),NA,0,decimal,39.79,-86.148003,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3e-g,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS003,survival,percentage of eggs hatching as a function of temperature and photoperiod,95.47,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,13.99,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,field (F3),NA,0,decimal,39.79,-86.148003,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3e-g,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS003,survival,percentage of eggs hatching as a function of temperature and photoperiod,99.07,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,15.01,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,field (F3),NA,0,decimal,39.79,-86.148003,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3e-g,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS004,survival,percentage of eggs hatching as a function of temperature and photoperiod,16.38,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,12.01,hours,NA,NA,NA,NA,NA,Hidalgo Texas USA,field (F3),NA,0,decimal,26.1,-98.263068,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS004,survival,percentage of eggs hatching as a function of temperature and photoperiod,20.26,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,13.02,hours,NA,NA,NA,NA,NA,Hidalgo Texas USA,field (F3),NA,0,decimal,26.1,-98.263068,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS004,survival,percentage of eggs hatching as a function of temperature and photoperiod,31.47,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,13.27,hours,NA,NA,NA,NA,NA,Hidalgo Texas USA,field (F3),NA,0,decimal,26.1,-98.263068,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS004,survival,percentage of eggs hatching as a function of temperature and photoperiod,52.16,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,13.52,hours,NA,NA,NA,NA,NA,Hidalgo Texas USA,field (F3),NA,0,decimal,26.1,-98.263068,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS004,survival,percentage of eggs hatching as a function of temperature and photoperiod,79.31,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,13.77,hours,NA,NA,NA,NA,NA,Hidalgo Texas USA,field (F3),NA,0,decimal,26.1,-98.263068,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS004,survival,percentage of eggs hatching as a function of temperature and photoperiod,97.84,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,duration interactor1 was exposed to light per day,14,hours,NA,NA,NA,NA,NA,Hidalgo Texas USA,field (F3),NA,0,decimal,26.1,-98.263068,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS004,survival,percentage of eggs hatching as a function of temperature and photoperiod,97.84,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,14.53,hours,NA,NA,NA,NA,NA,Hidalgo Texas USA,field (F3),NA,0,decimal,26.1,-98.263068,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS004,survival,percentage of eggs hatching as a function of temperature and photoperiod,97.41,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,15.02,hours,NA,NA,NA,NA,NA,Hidalgo Texas USA,field (F3),NA,0,decimal,26.1,-98.263068,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS004,survival,percentage of eggs hatching as a function of temperature and photoperiod,9.52,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,12,hours,NA,NA,NA,NA,NA,Chicago Illinois USA,field (F2),NA,0,decimal,41.88,-87.623177,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3h,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS004,survival,percentage of eggs hatching as a function of temperature and photoperiod,19.91,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,12.5,hours,NA,NA,NA,NA,NA,Chicago Illinois USA,field (F2),NA,0,decimal,41.88,-87.623177,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3h,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS004,survival,percentage of eggs hatching as a function of temperature and photoperiod,18.61,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,12.76,hours,NA,NA,NA,NA,NA,Chicago Illinois USA,field (F2),NA,0,decimal,41.88,-87.623177,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3h,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS004,survival,percentage of eggs hatching as a function of temperature and photoperiod,19.91,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,13.25,hours,NA,NA,NA,NA,NA,Chicago Illinois USA,field (F2),NA,0,decimal,41.88,-87.623177,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3h,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS004,survival,percentage of eggs hatching as a function of temperature and photoperiod,48.05,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,13.01,hours,NA,NA,NA,NA,NA,Chicago Illinois USA,field (F2),NA,0,decimal,41.88,-87.623177,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3h,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS004,survival,percentage of eggs hatching as a function of temperature and photoperiod,72.73,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,13.51,hours,NA,NA,NA,NA,NA,Chicago Illinois USA,field (F2),NA,0,decimal,41.88,-87.623177,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3h,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS004,survival,percentage of eggs hatching as a function of temperature and photoperiod,90.91,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,13.77,hours,NA,NA,NA,NA,NA,Chicago Illinois USA,field (F2),NA,0,decimal,41.88,-87.623177,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3h,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS004,survival,percentage of eggs hatching as a function of temperature and photoperiod,95.24,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,duration interactor1 was exposed to light per day,14,hours,NA,NA,NA,NA,NA,Chicago Illinois USA,field (F2),NA,0,decimal,41.88,-87.623177,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3h,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS004,survival,percentage of eggs hatching as a function of temperature and photoperiod,95.24,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,14.52,hours,NA,NA,NA,NA,NA,Chicago Illinois USA,field (F2),NA,0,decimal,41.88,-87.623177,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3h,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,FKS004,survival,percentage of eggs hatching as a function of temperature and photoperiod,90.48,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,photoperiod,15.01,hours,NA,NA,NA,NA,NA,Chicago Illinois USA,field (F2),NA,0,decimal,41.88,-87.623177,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3h,Focks et al. 1994. Aedes albopictus (Diptera: Culicidae): A statistical model of the role of temperature photoperiod and geography in the induction of egg diapause. Journal of Medical Entomology 31:2,10.1093/jmedent/31.2.278,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/1994
NA,GS001,infection rate,percentage of total number of individuals (interactor1number) challenged with DENV-2 (Hanoi strain) that became infected,4.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,10,days,NA,Hanoi Vietnam,field,01/08/2013,4,decimal,21.028511,105.804817,Aedes aegypti,NA,NA,NA,94,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Gloria-Soria et al. 2017. Infection rate of Aedes aegypti mosquitoes with dengue virus depends on the interaction between temperature and mosquito genotype. Proc R Soc B 284: 20171506,10.1098/rspb.2017.1506,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 eggs from females collected in Hanoi Vietnam. Adults F6-F9 were used from eggs F1 sampled in the wild. interactor1number is the total number of individuals that were challenged.,TRUE,01/01/2017
NA,GS001,infection rate,percentage of total number of individuals (interactor1number) challenged with DENV-2 (Hanoi strain) that became infected,9.1,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,10,days,NA,Hanoi Vietnam,field,01/08/2013,4,decimal,21.028511,105.804817,Aedes aegypti,NA,NA,NA,55,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Gloria-Soria et al. 2017. Infection rate of Aedes aegypti mosquitoes with dengue virus depends on the interaction between temperature and mosquito genotype. Proc R Soc B 284: 20171506,10.1098/rspb.2017.1506,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 eggs from females collected in Hanoi Vietnam. Adults F6-F9 were used from eggs F1 sampled in the wild. interactor1number is the total number of individuals that were challenged.,TRUE,01/01/2017
NA,GS001,infection rate,percentage of total number of individuals (interactor1number) challenged with DENV-2 (Hanoi strain) that became infected,3.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,10,days,NA,Hanoi Vietnam,field,01/08/2013,4,decimal,21.028511,105.804817,Aedes aegypti,NA,NA,NA,80,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Gloria-Soria et al. 2017. Infection rate of Aedes aegypti mosquitoes with dengue virus depends on the interaction between temperature and mosquito genotype. Proc R Soc B 284: 20171506,10.1098/rspb.2017.1506,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 eggs from females collected in Hanoi Vietnam. Adults F6-F9 were used from eggs F1 sampled in the wild. interactor1number is the total number of individuals that were challenged.,TRUE,01/01/2017
NA,GS001,infection rate,percentage of total number of individuals (interactor1number) challenged with DENV-2 (Hanoi strain) that became infected,8.1,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,10,days,NA,Ho Chi Min Vietnam,field,01/08/2013,4,decimal,10.762622,106.660172,Aedes aegypti,NA,NA,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Gloria-Soria et al. 2017. Infection rate of Aedes aegypti mosquitoes with dengue virus depends on the interaction between temperature and mosquito genotype. Proc R Soc B 284: 20171506,10.1098/rspb.2017.1506,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 eggs from females collected in Ho Chi Min Vietnam. Adults F6-F9 were used from eggs F1 sampled in the wild. interactor1number is the total number of individuals that were challenged.,TRUE,01/01/2017
NA,GS001,infection rate,percentage of total number of individuals (interactor1number) challenged with DENV-2 (Hanoi strain) that became infected,13,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,10,days,NA,Ho Chi Min Vietnam,field,01/08/2013,4,decimal,10.762622,106.660172,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Gloria-Soria et al. 2017. Infection rate of Aedes aegypti mosquitoes with dengue virus depends on the interaction between temperature and mosquito genotype. Proc R Soc B 284: 20171506,10.1098/rspb.2017.1506,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 eggs from females collected in Ho Chi Min Vietnam. Adults F6-F9 were used from eggs F1 sampled in the wild. interactor1number is the total number of individuals that were challenged.,TRUE,01/01/2017
NA,GS001,infection rate,percentage of total number of individuals (interactor1number) challenged with DENV-2 (Hanoi strain) that became infected,2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,10,days,NA,Ho Chi Min Vietnam,field,01/08/2013,4,decimal,10.762622,106.660172,Aedes aegypti,NA,NA,NA,47,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Gloria-Soria et al. 2017. Infection rate of Aedes aegypti mosquitoes with dengue virus depends on the interaction between temperature and mosquito genotype. Proc R Soc B 284: 20171506,10.1098/rspb.2017.1506,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 eggs from females collected in Ho Chi Min Vietnam. Adults F6-F9 were used from eggs F1 sampled in the wild. interactor1number is the total number of individuals that were challenged.,TRUE,01/01/2017
NA,GS001,infection rate,percentage of total number of individuals challenged with DENV-2 (Ho Chi Minh strain) that became infected,10.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,10,days,NA,Hanoi Vietnam,field,01/08/2013,4,decimal,21.028511,105.804817,Aedes aegypti,NA,NA,NA,74,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Gloria-Soria et al. 2017. Infection rate of Aedes aegypti mosquitoes with dengue virus depends on the interaction between temperature and mosquito genotype. Proc R Soc B 284: 20171506,10.1098/rspb.2017.1506,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 eggs from females collected in Hanoi Vietnam. Adults F6-F9 were used from eggs F1 sampled in the wild. interactor1number is the total number of individuals that were challenged.,TRUE,01/01/2017
NA,GS001,infection rate,percentage of total number of individuals challenged with DENV-2 (Ho Chi Minh strain) that became infected,2.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,10,days,NA,Hanoi Vietnam,field,01/08/2013,4,decimal,21.028511,105.804817,Aedes aegypti,NA,NA,NA,70,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Gloria-Soria et al. 2017. Infection rate of Aedes aegypti mosquitoes with dengue virus depends on the interaction between temperature and mosquito genotype. Proc R Soc B 284: 20171506,10.1098/rspb.2017.1506,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 eggs from females collected in Hanoi Vietnam. Adults F6-F9 were used from eggs F1 sampled in the wild. interactor1number is the total number of individuals that were challenged.,TRUE,01/01/2017
NA,GS001,infection rate,percentage of total number of individuals challenged with DENV-2 (Ho Chi Minh strain) that became infected,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,10,days,NA,Hanoi Vietnam,field,01/08/2013,4,decimal,21.028511,105.804817,Aedes aegypti,NA,NA,NA,22,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Gloria-Soria et al. 2017. Infection rate of Aedes aegypti mosquitoes with dengue virus depends on the interaction between temperature and mosquito genotype. Proc R Soc B 284: 20171506,10.1098/rspb.2017.1506,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 eggs from females collected in Hanoi Vietnam. Adults F6-F9 were used from eggs F1 sampled in the wild. interactor1number is the total number of individuals that were challenged.,TRUE,01/01/2017
NA,GS001,infection rate,percentage of total number of individuals challenged with DENV-2 (Ho Chi Minh strain) that became infected,24.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,10,days,NA,Ho Chi Min Vietnam,field,01/08/2013,4,decimal,10.762622,106.660172,Aedes aegypti,NA,NA,NA,65,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Gloria-Soria et al. 2017. Infection rate of Aedes aegypti mosquitoes with dengue virus depends on the interaction between temperature and mosquito genotype. Proc R Soc B 284: 20171506,10.1098/rspb.2017.1506,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 eggs from females collected in Ho Chi Min Vietnam. Adults F6-F9 were used from eggs F1 sampled in the wild. interactor1number is the total number of individuals that were challenged.,TRUE,01/01/2017
NA,GS001,infection rate,percentage of total number of individuals challenged with DENV-2 (Ho Chi Minh strain) that became infected,9.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,10,days,NA,Ho Chi Min Vietnam,field,01/08/2013,4,decimal,10.762622,106.660172,Aedes aegypti,NA,NA,NA,51,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Gloria-Soria et al. 2017. Infection rate of Aedes aegypti mosquitoes with dengue virus depends on the interaction between temperature and mosquito genotype. Proc R Soc B 284: 20171506,10.1098/rspb.2017.1506,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 eggs from females collected in Ho Chi Min Vietnam. Adults F6-F9 were used from eggs F1 sampled in the wild. interactor1number is the total number of individuals that were challenged.,TRUE,01/01/2017
NA,GS001,infection rate,percentage of total number of individuals challenged with DENV-2 (Ho Chi Minh strain) that became infected,7.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,10,days,NA,Ho Chi Min Vietnam,field,01/08/2013,4,decimal,10.762622,106.660172,Aedes aegypti,NA,NA,NA,65,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Gloria-Soria et al. 2017. Infection rate of Aedes aegypti mosquitoes with dengue virus depends on the interaction between temperature and mosquito genotype. Proc R Soc B 284: 20171506,10.1098/rspb.2017.1506,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 eggs from females collected in Ho Chi Min Vietnam. Adults F6-F9 were used from eggs F1 sampled in the wild. interactor1number is the total number of individuals that were challenged.,TRUE,01/01/2017
NA,PHX571,longevity,mean duration of life stage,31.7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,67,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table S4,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,PHX571,longevity,mean duration of life stage,36.55,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,85,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table S4,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,PHX571,longevity,mean duration of life stage,17.87,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,95,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table S4,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,PHX57236,blood feeding frequency,percent taking one bloodmeal,60,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,PHX57236,blood feeding frequency,percent taking one bloodmeal,86,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,PHX57236,blood feeding frequency,percent taking one bloodmeal,96,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,PHX57236,blood feeding frequency,percent taking two bloodmeals and completing two gonotrophic cycles,28,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,PHX57236,blood feeding frequency,percent taking two bloodmeals and completing two gonotrophic cycles,43,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,PHX57236,blood feeding frequency,percent taking two bloodmeals and completing two gonotrophic cycles,39,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,PHX57237,transmission potential,percent of individuals with transmission potential,28,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,PHX57237,transmission potential,percent of individuals with transmission potential,43,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,PHX57237,transmission potential,percent of individuals with transmission potential,39,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577777,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,9.67,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577778,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577779,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,13.67,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577780,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,8.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577781,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577782,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,10.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577783,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577784,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577785,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,15.33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577786,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577787,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577788,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577789,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,10.33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577790,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,10.33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577791,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577792,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577793,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577794,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,10.33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577795,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577796,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,13.33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577797,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,8.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577798,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577799,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577800,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,13.4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577801,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577802,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577803,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577804,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,8.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577805,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577806,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577807,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577808,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577809,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577810,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577811,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577812,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,7.33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577813,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,11.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577814,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,8.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577815,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,9.67,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577816,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577817,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,8.75,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577818,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577819,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577820,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,7.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577821,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577822,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577823,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577824,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,9.25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577825,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577826,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577827,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,9.33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577828,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577829,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,9.71,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577830,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577831,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,10.67,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577832,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,13.33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577833,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577834,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577835,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,14.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577836,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577837,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577838,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577839,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,8.67,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577840,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577841,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577842,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577843,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,11.25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577844,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,7.75,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577845,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577846,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577847,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577848,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577849,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577850,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577851,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577852,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577853,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577854,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577855,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577856,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577857,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577858,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577859,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,15.57,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577860,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577861,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577862,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,11.25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577863,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577864,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577865,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577866,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577867,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577868,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577869,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577870,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577871,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577872,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,9.25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577873,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,9.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577874,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577875,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,4.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577876,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577877,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577878,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577879,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577880,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577881,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577882,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577883,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,11.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577884,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,8.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577885,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,10.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577886,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,8.67,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577887,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577888,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,4.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577889,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577890,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,8.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577891,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,13.6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577892,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577893,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577894,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,9.67,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577895,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577896,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577897,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577898,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,6.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577899,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577900,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577901,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577902,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577903,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577904,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577905,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577906,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577907,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,8.33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577908,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577909,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577910,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577911,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577912,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577913,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,7.33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577914,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577915,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577916,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577917,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577918,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577919,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577920,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577921,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577922,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577923,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577924,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577925,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577926,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577927,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577928,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577929,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577930,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577931,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577932,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577933,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577934,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577935,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577936,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577937,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577938,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577939,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577940,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577941,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577942,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577943,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577944,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577945,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577946,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577947,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577948,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577949,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577950,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577951,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577952,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577953,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577954,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577955,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577956,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577957,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577958,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577959,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577960,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577961,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577962,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577963,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577964,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577965,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,3.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577966,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577967,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577968,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,6.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577969,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,6.67,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577970,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577971,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577972,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,9.67,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577973,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577974,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577975,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577976,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577977,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577978,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577979,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,6.75,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577980,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577981,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577982,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577983,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,7.33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577984,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX577985,NA,gonotrophic cycle,individual-level duration of second gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary file 1,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57231,NA,fecundity,individual-level mean eggs per gonotrophic cycle,34,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57232,NA,fecundity,individual-level mean eggs per gonotrophic cycle,36.5,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57233,NA,fecundity,individual-level mean eggs per gonotrophic cycle,53,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57234,NA,fecundity,individual-level mean eggs per gonotrophic cycle,57.5,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57235,NA,fecundity,individual-level mean eggs per gonotrophic cycle,40,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57236,NA,fecundity,individual-level mean eggs per gonotrophic cycle,67,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57237,NA,fecundity,individual-level mean eggs per gonotrophic cycle,38,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57238,NA,fecundity,individual-level mean eggs per gonotrophic cycle,72,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57239,NA,fecundity,individual-level mean eggs per gonotrophic cycle,58,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57240,NA,fecundity,individual-level mean eggs per gonotrophic cycle,48,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57241,NA,fecundity,individual-level mean eggs per gonotrophic cycle,67.5,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57242,NA,fecundity,individual-level mean eggs per gonotrophic cycle,28,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57243,NA,fecundity,individual-level mean eggs per gonotrophic cycle,47.5,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57244,NA,fecundity,individual-level mean eggs per gonotrophic cycle,52,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57245,NA,fecundity,individual-level mean eggs per gonotrophic cycle,21,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57246,NA,fecundity,individual-level mean eggs per gonotrophic cycle,77,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57247,NA,fecundity,individual-level mean eggs per gonotrophic cycle,53,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57248,NA,fecundity,individual-level mean eggs per gonotrophic cycle,22,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57249,NA,fecundity,individual-level mean eggs per gonotrophic cycle,21,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57250,NA,fecundity,individual-level mean eggs per gonotrophic cycle,51,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57251,NA,fecundity,individual-level mean eggs per gonotrophic cycle,16,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57252,NA,fecundity,individual-level mean eggs per gonotrophic cycle,14,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57253,NA,fecundity,individual-level mean eggs per gonotrophic cycle,24,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57254,NA,fecundity,individual-level mean eggs per gonotrophic cycle,29,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57255,NA,fecundity,individual-level mean eggs per gonotrophic cycle,1,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57256,NA,fecundity,individual-level mean eggs per gonotrophic cycle,31,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57257,NA,fecundity,individual-level mean eggs per gonotrophic cycle,39,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57258,NA,fecundity,individual-level mean eggs per gonotrophic cycle,41,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57259,NA,fecundity,individual-level mean eggs per gonotrophic cycle,35,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57260,NA,fecundity,individual-level mean eggs per gonotrophic cycle,58,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57261,NA,fecundity,individual-level mean eggs per gonotrophic cycle,40,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57262,NA,fecundity,individual-level mean eggs per gonotrophic cycle,33.66666667,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57263,NA,fecundity,individual-level mean eggs per gonotrophic cycle,56,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57264,NA,fecundity,individual-level mean eggs per gonotrophic cycle,19,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57265,NA,fecundity,individual-level mean eggs per gonotrophic cycle,1,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57266,NA,fecundity,individual-level mean eggs per gonotrophic cycle,18.5,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57267,NA,fecundity,individual-level mean eggs per gonotrophic cycle,14,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57268,NA,fecundity,individual-level mean eggs per gonotrophic cycle,29,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57269,NA,fecundity,individual-level mean eggs per gonotrophic cycle,6,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57270,NA,fecundity,individual-level mean eggs per gonotrophic cycle,51,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57271,NA,fecundity,individual-level mean eggs per gonotrophic cycle,50,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57272,NA,fecundity,individual-level mean eggs per gonotrophic cycle,51,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57273,NA,fecundity,individual-level mean eggs per gonotrophic cycle,50,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57274,NA,fecundity,individual-level mean eggs per gonotrophic cycle,46,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57275,NA,fecundity,individual-level mean eggs per gonotrophic cycle,58,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57276,NA,fecundity,individual-level mean eggs per gonotrophic cycle,70,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57277,NA,fecundity,individual-level mean eggs per gonotrophic cycle,23.5,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57278,NA,fecundity,individual-level mean eggs per gonotrophic cycle,53,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57279,NA,fecundity,individual-level mean eggs per gonotrophic cycle,2,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57280,NA,fecundity,individual-level mean eggs per gonotrophic cycle,56,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57281,NA,fecundity,individual-level mean eggs per gonotrophic cycle,82,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57282,NA,fecundity,individual-level mean eggs per gonotrophic cycle,66.5,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57283,NA,fecundity,individual-level mean eggs per gonotrophic cycle,50.5,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57284,NA,fecundity,individual-level mean eggs per gonotrophic cycle,39,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57285,NA,fecundity,individual-level mean eggs per gonotrophic cycle,51,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57286,NA,fecundity,individual-level mean eggs per gonotrophic cycle,70,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57287,NA,fecundity,individual-level mean eggs per gonotrophic cycle,31.5,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57288,NA,fecundity,individual-level mean eggs per gonotrophic cycle,1,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57289,NA,fecundity,individual-level mean eggs per gonotrophic cycle,41,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57290,NA,fecundity,individual-level mean eggs per gonotrophic cycle,34,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57291,NA,fecundity,individual-level mean eggs per gonotrophic cycle,1,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57292,NA,fecundity,individual-level mean eggs per gonotrophic cycle,36,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57293,NA,fecundity,individual-level mean eggs per gonotrophic cycle,45,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57294,NA,fecundity,individual-level mean eggs per gonotrophic cycle,8,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57295,NA,fecundity,individual-level mean eggs per gonotrophic cycle,56,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57296,NA,fecundity,individual-level mean eggs per gonotrophic cycle,1,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57297,NA,fecundity,individual-level mean eggs per gonotrophic cycle,43,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57298,NA,fecundity,individual-level mean eggs per gonotrophic cycle,49,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57299,NA,fecundity,individual-level mean eggs per gonotrophic cycle,59,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57300,NA,fecundity,individual-level mean eggs per gonotrophic cycle,52.33333333,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57301,NA,fecundity,individual-level mean eggs per gonotrophic cycle,22,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57302,NA,fecundity,individual-level mean eggs per gonotrophic cycle,57,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57303,NA,fecundity,individual-level mean eggs per gonotrophic cycle,73,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57304,NA,fecundity,individual-level mean eggs per gonotrophic cycle,51,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57305,NA,fecundity,individual-level mean eggs per gonotrophic cycle,40,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57306,NA,fecundity,individual-level mean eggs per gonotrophic cycle,59.5,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57307,NA,fecundity,individual-level mean eggs per gonotrophic cycle,31,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57308,NA,fecundity,individual-level mean eggs per gonotrophic cycle,25,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57309,NA,fecundity,individual-level mean eggs per gonotrophic cycle,45.66666667,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57310,NA,fecundity,individual-level mean eggs per gonotrophic cycle,36,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57311,NA,fecundity,individual-level mean eggs per gonotrophic cycle,2,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57312,NA,fecundity,individual-level mean eggs per gonotrophic cycle,2,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57313,NA,fecundity,individual-level mean eggs per gonotrophic cycle,24,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57314,NA,fecundity,individual-level mean eggs per gonotrophic cycle,54.66666667,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57315,NA,fecundity,individual-level mean eggs per gonotrophic cycle,48.66666667,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57316,NA,fecundity,individual-level mean eggs per gonotrophic cycle,32.5,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57317,NA,fecundity,individual-level mean eggs per gonotrophic cycle,44,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57318,NA,fecundity,individual-level mean eggs per gonotrophic cycle,49,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57319,NA,fecundity,individual-level mean eggs per gonotrophic cycle,28,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57320,NA,fecundity,individual-level mean eggs per gonotrophic cycle,18,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57321,NA,fecundity,individual-level mean eggs per gonotrophic cycle,8,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57322,NA,fecundity,individual-level mean eggs per gonotrophic cycle,57,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57323,NA,fecundity,individual-level mean eggs per gonotrophic cycle,51.5,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57324,NA,fecundity,individual-level mean eggs per gonotrophic cycle,38,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57325,NA,fecundity,individual-level mean eggs per gonotrophic cycle,30,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57326,NA,fecundity,individual-level mean eggs per gonotrophic cycle,32,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57327,NA,fecundity,individual-level mean eggs per gonotrophic cycle,39.5,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57328,NA,fecundity,individual-level mean eggs per gonotrophic cycle,14,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57329,NA,fecundity,individual-level mean eggs per gonotrophic cycle,12,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57330,NA,fecundity,individual-level mean eggs per gonotrophic cycle,31,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57331,NA,fecundity,individual-level mean eggs per gonotrophic cycle,42,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57332,NA,fecundity,individual-level mean eggs per gonotrophic cycle,44,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57333,NA,fecundity,individual-level mean eggs per gonotrophic cycle,58,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57334,NA,fecundity,individual-level mean eggs per gonotrophic cycle,49.5,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57335,NA,fecundity,individual-level mean eggs per gonotrophic cycle,57,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57336,NA,fecundity,individual-level mean eggs per gonotrophic cycle,37,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57337,NA,fecundity,individual-level mean eggs per gonotrophic cycle,56,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57338,NA,fecundity,individual-level mean eggs per gonotrophic cycle,29,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57339,NA,fecundity,individual-level mean eggs per gonotrophic cycle,23,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57340,NA,fecundity,individual-level mean eggs per gonotrophic cycle,22.5,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57341,NA,fecundity,individual-level mean eggs per gonotrophic cycle,43,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57342,NA,fecundity,individual-level mean eggs per gonotrophic cycle,43,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57343,NA,fecundity,individual-level mean eggs per gonotrophic cycle,39,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57344,NA,fecundity,individual-level mean eggs per gonotrophic cycle,20,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57345,NA,fecundity,individual-level mean eggs per gonotrophic cycle,15,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57346,NA,fecundity,individual-level mean eggs per gonotrophic cycle,29.5,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57347,NA,fecundity,individual-level mean eggs per gonotrophic cycle,33,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57348,NA,fecundity,individual-level mean eggs per gonotrophic cycle,60,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57349,NA,fecundity,individual-level mean eggs per gonotrophic cycle,15,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57350,NA,fecundity,individual-level mean eggs per gonotrophic cycle,13,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57351,NA,fecundity,individual-level mean eggs per gonotrophic cycle,26,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57352,NA,fecundity,individual-level mean eggs per gonotrophic cycle,48,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57353,NA,fecundity,individual-level mean eggs per gonotrophic cycle,5,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57354,NA,fecundity,individual-level mean eggs per gonotrophic cycle,51,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57355,NA,fecundity,individual-level mean eggs per gonotrophic cycle,52.5,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57356,NA,fecundity,individual-level mean eggs per gonotrophic cycle,51,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57357,NA,fecundity,individual-level mean eggs per gonotrophic cycle,33,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57358,NA,fecundity,individual-level mean eggs per gonotrophic cycle,57,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57359,NA,fecundity,individual-level mean eggs per gonotrophic cycle,93,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57360,NA,fecundity,individual-level mean eggs per gonotrophic cycle,50.5,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57361,NA,fecundity,individual-level mean eggs per gonotrophic cycle,27,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57362,NA,fecundity,individual-level mean eggs per gonotrophic cycle,64.5,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57363,NA,fecundity,individual-level mean eggs per gonotrophic cycle,59.5,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57364,NA,fecundity,individual-level mean eggs per gonotrophic cycle,58,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57365,NA,fecundity,individual-level mean eggs per gonotrophic cycle,32,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57366,NA,fecundity,individual-level mean eggs per gonotrophic cycle,33.33333333,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57367,NA,fecundity,individual-level mean eggs per gonotrophic cycle,42,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57368,NA,fecundity,individual-level mean eggs per gonotrophic cycle,41.5,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57369,NA,fecundity,individual-level mean eggs per gonotrophic cycle,24,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57370,NA,fecundity,individual-level mean eggs per gonotrophic cycle,44,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57371,NA,fecundity,individual-level mean eggs per gonotrophic cycle,45,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57372,NA,fecundity,individual-level mean eggs per gonotrophic cycle,16,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57373,NA,fecundity,individual-level mean eggs per gonotrophic cycle,33,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57374,NA,fecundity,individual-level mean eggs per gonotrophic cycle,38.5,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57375,NA,fecundity,individual-level mean eggs per gonotrophic cycle,14,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57376,NA,fecundity,individual-level mean eggs per gonotrophic cycle,40,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57377,NA,fecundity,individual-level mean eggs per gonotrophic cycle,60,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57378,NA,fecundity,individual-level mean eggs per gonotrophic cycle,24,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57231,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57232,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,2,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57233,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57234,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,2,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57235,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57236,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,2,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57237,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,2,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57238,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57239,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57240,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57241,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,2,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57242,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57243,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,2,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57244,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,2,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57245,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57246,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57247,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57248,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57249,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57250,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57251,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57252,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57253,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,2,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57254,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57255,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57256,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57257,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57258,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57259,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57260,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,2,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57261,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57262,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,3,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57263,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57264,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57265,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57266,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,2,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57267,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57268,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57269,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57270,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,2,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57271,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57272,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,2,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57273,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57274,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,2,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57275,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57276,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57277,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,2,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57278,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57279,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,2,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57280,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57281,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57282,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,2,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57283,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,2,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57284,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,3,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57285,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,2,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57286,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57287,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,2,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57288,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,2,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57289,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57290,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,2,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57291,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,2,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57292,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,2,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57293,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57294,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57295,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57296,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57297,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57298,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,2,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57299,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,2,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57300,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,3,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57301,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57302,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57303,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57304,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,2,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57305,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57306,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,2,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57307,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,2,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57308,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57309,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,3,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57310,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57311,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57312,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57313,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57314,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,3,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57315,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,3,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57316,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,2,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57317,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57318,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57319,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57320,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57321,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57322,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,2,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57323,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,2,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57324,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57325,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57326,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57327,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,2,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57328,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57329,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57330,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,2,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57331,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57332,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57333,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,2,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57334,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,3,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57335,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57336,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,2,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57337,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57338,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57339,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,2,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57340,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,2,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57341,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57342,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57343,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57344,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57345,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57346,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,2,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57347,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57348,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57349,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57350,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57351,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,2,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57352,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57353,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57354,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,2,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57355,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,2,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57356,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,2,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57357,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57358,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57359,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57360,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,2,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57361,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57362,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,2,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57363,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,2,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57364,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57365,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57366,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,3,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57367,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57368,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,2,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57369,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57370,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57371,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,2,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57372,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57373,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,2,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57374,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,2,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57375,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57376,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57377,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57378,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,1,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57379,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,2,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57380,NA,gonotrophic cycle,individual-level lifetime number of cycles completed,2,lifetime cycles,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57231,NA,fecundity,individual-level lifetime eggs,34,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57232,NA,fecundity,individual-level lifetime eggs,73,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57233,NA,fecundity,individual-level lifetime eggs,53,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57234,NA,fecundity,individual-level lifetime eggs,115,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57235,NA,fecundity,individual-level lifetime eggs,40,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57236,NA,fecundity,individual-level lifetime eggs,134,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57237,NA,fecundity,individual-level lifetime eggs,76,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57238,NA,fecundity,individual-level lifetime eggs,72,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57239,NA,fecundity,individual-level lifetime eggs,58,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57240,NA,fecundity,individual-level lifetime eggs,48,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57241,NA,fecundity,individual-level lifetime eggs,135,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57242,NA,fecundity,individual-level lifetime eggs,28,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57243,NA,fecundity,individual-level lifetime eggs,95,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57244,NA,fecundity,individual-level lifetime eggs,104,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57245,NA,fecundity,individual-level lifetime eggs,21,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57246,NA,fecundity,individual-level lifetime eggs,77,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57247,NA,fecundity,individual-level lifetime eggs,53,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57248,NA,fecundity,individual-level lifetime eggs,22,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57249,NA,fecundity,individual-level lifetime eggs,21,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57250,NA,fecundity,individual-level lifetime eggs,51,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57251,NA,fecundity,individual-level lifetime eggs,16,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57252,NA,fecundity,individual-level lifetime eggs,14,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57253,NA,fecundity,individual-level lifetime eggs,48,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57254,NA,fecundity,individual-level lifetime eggs,29,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57255,NA,fecundity,individual-level lifetime eggs,1,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57256,NA,fecundity,individual-level lifetime eggs,31,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57257,NA,fecundity,individual-level lifetime eggs,39,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57258,NA,fecundity,individual-level lifetime eggs,41,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57259,NA,fecundity,individual-level lifetime eggs,35,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57260,NA,fecundity,individual-level lifetime eggs,116,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57261,NA,fecundity,individual-level lifetime eggs,40,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57262,NA,fecundity,individual-level lifetime eggs,101,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57263,NA,fecundity,individual-level lifetime eggs,56,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57264,NA,fecundity,individual-level lifetime eggs,19,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57265,NA,fecundity,individual-level lifetime eggs,1,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57266,NA,fecundity,individual-level lifetime eggs,37,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57267,NA,fecundity,individual-level lifetime eggs,14,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57268,NA,fecundity,individual-level lifetime eggs,29,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57269,NA,fecundity,individual-level lifetime eggs,6,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57270,NA,fecundity,individual-level lifetime eggs,102,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57271,NA,fecundity,individual-level lifetime eggs,100,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57272,NA,fecundity,individual-level lifetime eggs,102,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57273,NA,fecundity,individual-level lifetime eggs,50,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57274,NA,fecundity,individual-level lifetime eggs,92,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57275,NA,fecundity,individual-level lifetime eggs,58,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57276,NA,fecundity,individual-level lifetime eggs,70,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57277,NA,fecundity,individual-level lifetime eggs,47,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57278,NA,fecundity,individual-level lifetime eggs,53,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57279,NA,fecundity,individual-level lifetime eggs,4,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57280,NA,fecundity,individual-level lifetime eggs,56,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57281,NA,fecundity,individual-level lifetime eggs,82,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57282,NA,fecundity,individual-level lifetime eggs,133,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57283,NA,fecundity,individual-level lifetime eggs,101,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57284,NA,fecundity,individual-level lifetime eggs,117,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57285,NA,fecundity,individual-level lifetime eggs,102,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57286,NA,fecundity,individual-level lifetime eggs,70,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57287,NA,fecundity,individual-level lifetime eggs,63,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57288,NA,fecundity,individual-level lifetime eggs,2,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57289,NA,fecundity,individual-level lifetime eggs,41,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57290,NA,fecundity,individual-level lifetime eggs,68,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57291,NA,fecundity,individual-level lifetime eggs,2,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57292,NA,fecundity,individual-level lifetime eggs,72,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57293,NA,fecundity,individual-level lifetime eggs,45,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57294,NA,fecundity,individual-level lifetime eggs,8,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57295,NA,fecundity,individual-level lifetime eggs,56,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57296,NA,fecundity,individual-level lifetime eggs,1,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57297,NA,fecundity,individual-level lifetime eggs,43,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57298,NA,fecundity,individual-level lifetime eggs,98,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57299,NA,fecundity,individual-level lifetime eggs,118,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57300,NA,fecundity,individual-level lifetime eggs,157,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57301,NA,fecundity,individual-level lifetime eggs,22,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57302,NA,fecundity,individual-level lifetime eggs,57,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57303,NA,fecundity,individual-level lifetime eggs,73,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57304,NA,fecundity,individual-level lifetime eggs,102,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57305,NA,fecundity,individual-level lifetime eggs,40,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57306,NA,fecundity,individual-level lifetime eggs,119,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57307,NA,fecundity,individual-level lifetime eggs,62,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57308,NA,fecundity,individual-level lifetime eggs,25,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57309,NA,fecundity,individual-level lifetime eggs,137,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57310,NA,fecundity,individual-level lifetime eggs,36,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57311,NA,fecundity,individual-level lifetime eggs,2,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57312,NA,fecundity,individual-level lifetime eggs,2,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57313,NA,fecundity,individual-level lifetime eggs,24,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57314,NA,fecundity,individual-level lifetime eggs,164,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57315,NA,fecundity,individual-level lifetime eggs,146,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57316,NA,fecundity,individual-level lifetime eggs,65,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57317,NA,fecundity,individual-level lifetime eggs,44,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57318,NA,fecundity,individual-level lifetime eggs,49,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57319,NA,fecundity,individual-level lifetime eggs,28,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57320,NA,fecundity,individual-level lifetime eggs,18,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57321,NA,fecundity,individual-level lifetime eggs,8,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57322,NA,fecundity,individual-level lifetime eggs,114,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57323,NA,fecundity,individual-level lifetime eggs,103,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57324,NA,fecundity,individual-level lifetime eggs,38,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57325,NA,fecundity,individual-level lifetime eggs,30,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57326,NA,fecundity,individual-level lifetime eggs,32,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57327,NA,fecundity,individual-level lifetime eggs,79,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57328,NA,fecundity,individual-level lifetime eggs,14,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57329,NA,fecundity,individual-level lifetime eggs,12,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57330,NA,fecundity,individual-level lifetime eggs,62,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57331,NA,fecundity,individual-level lifetime eggs,42,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57332,NA,fecundity,individual-level lifetime eggs,44,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57333,NA,fecundity,individual-level lifetime eggs,116,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57334,NA,fecundity,individual-level lifetime eggs,99,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57335,NA,fecundity,individual-level lifetime eggs,57,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57336,NA,fecundity,individual-level lifetime eggs,74,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57337,NA,fecundity,individual-level lifetime eggs,56,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57338,NA,fecundity,individual-level lifetime eggs,29,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57339,NA,fecundity,individual-level lifetime eggs,46,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57340,NA,fecundity,individual-level lifetime eggs,45,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57341,NA,fecundity,individual-level lifetime eggs,43,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57342,NA,fecundity,individual-level lifetime eggs,43,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57343,NA,fecundity,individual-level lifetime eggs,39,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57344,NA,fecundity,individual-level lifetime eggs,20,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57345,NA,fecundity,individual-level lifetime eggs,15,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57346,NA,fecundity,individual-level lifetime eggs,59,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57347,NA,fecundity,individual-level lifetime eggs,33,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57348,NA,fecundity,individual-level lifetime eggs,60,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57349,NA,fecundity,individual-level lifetime eggs,15,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57350,NA,fecundity,individual-level lifetime eggs,13,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57351,NA,fecundity,individual-level lifetime eggs,52,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57352,NA,fecundity,individual-level lifetime eggs,48,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57353,NA,fecundity,individual-level lifetime eggs,5,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57354,NA,fecundity,individual-level lifetime eggs,102,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57355,NA,fecundity,individual-level lifetime eggs,105,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57356,NA,fecundity,individual-level lifetime eggs,92,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57357,NA,fecundity,individual-level lifetime eggs,33,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57358,NA,fecundity,individual-level lifetime eggs,57,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57359,NA,fecundity,individual-level lifetime eggs,93,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57360,NA,fecundity,individual-level lifetime eggs,101,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57361,NA,fecundity,individual-level lifetime eggs,27,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57362,NA,fecundity,individual-level lifetime eggs,129,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57363,NA,fecundity,individual-level lifetime eggs,119,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57364,NA,fecundity,individual-level lifetime eggs,58,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57365,NA,fecundity,individual-level lifetime eggs,32,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57366,NA,fecundity,individual-level lifetime eggs,100,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57367,NA,fecundity,individual-level lifetime eggs,42,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57368,NA,fecundity,individual-level lifetime eggs,83,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57369,NA,fecundity,individual-level lifetime eggs,24,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57370,NA,fecundity,individual-level lifetime eggs,44,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57371,NA,fecundity,individual-level lifetime eggs,90,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57372,NA,fecundity,individual-level lifetime eggs,16,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57373,NA,fecundity,individual-level lifetime eggs,66,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57374,NA,fecundity,individual-level lifetime eggs,77,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57375,NA,fecundity,individual-level lifetime eggs,14,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57376,NA,fecundity,individual-level lifetime eggs,40,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57377,NA,fecundity,individual-level lifetime eggs,60,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57378,NA,fecundity,individual-level lifetime eggs,24,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57379,NA,fecundity,individual-level lifetime eggs,4,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57380,NA,fecundity,individual-level lifetime eggs,42,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57379,NA,fecundity,individual-level mean eggs per gonotrophic cycle,2,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
PHX57380,NA,fecundity,individual-level mean eggs per gonotrophic cycle,21,eggs cycle-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guadeloupe French West Indies,field,01/02/2012,4,decimal,16.25,-61.583333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary table 3,Goindin et al. 2015. Parity and longevity of Aedes aegypti according to temperatures in controlled conditions and consequences on dengue transmission risks. PLoS ONE 10(8): e0135489.,10.1371/journal.pone.0135489,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,DM02,development time,average duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Ciudad Autonoma de Buenos Aires Argentina,field,NA,0,decimal,-34.603683,-58.38156,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,24,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM02,development time,average duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Resistencia Argentina,field,NA,0,decimal,-27.450217,-58.99277,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,24,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM02,development time,average duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,San Bernardo del Tuyu Argentina,field,NA,0,decimal,-36.686367,-56.679167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,24,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM02,development time,average duration of life stage,3.6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Ciudad Autonoma de Buenos Aires Argentina,field,NA,0,decimal,-34.603683,-58.38156,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,14,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM02,development time,average duration of life stage,3.3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Resistencia Argentina,field,NA,0,decimal,-27.450217,-58.99277,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,14,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM02,development time,average duration of life stage,3.4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,San Bernardo del Tuyu Argentina,field,NA,0,decimal,-36.686367,-56.679167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,14,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM02,development time,average duration of life stage,1.6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Ciudad Autonoma de Buenos Aires Argentina,field,NA,0,decimal,-34.603683,-58.38156,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,18.5,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM02,development time,average duration of life stage,1.4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Resistencia Argentina,field,NA,0,decimal,-27.450217,-58.99277,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,18.5,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM02,development time,average duration of life stage,1.6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,San Bernardo del Tuyu Argentina,field,NA,0,decimal,-36.686367,-56.679167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,18.5,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM02,development time,average duration of life stage,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Ciudad Autonoma de Buenos Aires Argentina,field,NA,0,decimal,-34.603683,-58.38156,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,24,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM02,development time,average duration of life stage,0.9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Resistencia Argentina,field,NA,0,decimal,-27.450217,-58.99277,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,24,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM02,development time,average duration of life stage,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,San Bernardo del Tuyu Argentina,field,NA,0,decimal,-36.686367,-56.679167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,24,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM02,development time,average duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Ciudad Autonoma de Buenos Aires Argentina,field,NA,0,decimal,-34.603683,-58.38156,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,14,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM02,development time,average duration of life stage,3.9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Resistencia Argentina,field,NA,0,decimal,-27.450217,-58.99277,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,14,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM02,development time,average duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,San Bernardo del Tuyu Argentina,field,NA,0,decimal,-36.686367,-56.679167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,14,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM02,development time,average duration of life stage,2.7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Ciudad Autonoma de Buenos Aires Argentina,field,NA,0,decimal,-34.603683,-58.38156,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,18.5,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM02,development time,average duration of life stage,2.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Resistencia Argentina,field,NA,0,decimal,-27.450217,-58.99277,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,18.5,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM02,development time,average duration of life stage,2.6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,San Bernardo del Tuyu Argentina,field,NA,0,decimal,-36.686367,-56.679167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,18.5,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM02,development time,average duration of life stage,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Ciudad Autonoma de Buenos Aires Argentina,field,NA,0,decimal,-34.603683,-58.38156,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,24,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM02,development time,average duration of life stage,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Resistencia Argentina,field,NA,0,decimal,-27.450217,-58.99277,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,24,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM02,development time,average duration of life stage,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,San Bernardo del Tuyu Argentina,field,NA,0,decimal,-36.686367,-56.679167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,24,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM02,development time,average duration of life stage,12.1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Ciudad Autonoma de Buenos Aires Argentina,field,NA,0,decimal,-34.603683,-58.38156,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,14,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM02,development time,average duration of life stage,13.1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Resistencia Argentina,field,NA,0,decimal,-27.450217,-58.99277,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,14,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM02,development time,average duration of life stage,12.3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,San Bernardo del Tuyu Argentina,field,NA,0,decimal,-36.686367,-56.679167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,14,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,GRE002,survival,percent surviving life stage,40,percent,5.2,5.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cordoba Argentina,field,NA,0,decimal,-31.366667,-64.2,Aedes aegypti,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 and L2,NA,15.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Grech et al. 2015. Effect of temperature on life history traits during immature development of Aedes aegypti and Culex quinquefasciatus (Diptera:Culicidae) from Cordoba city Argentina.,10.1016/j.actatropica.2015.02.010,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2015
NA,GRE002,survival,percent surviving life stage,96,percent,1.15,1.15,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cordoba Argentina,field,NA,0,decimal,-31.366667,-64.2,Aedes aegypti,NA,NA,NA,144,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 and L2,NA,17.9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Grech et al. 2015. Effect of temperature on life history traits during immature development of Aedes aegypti and Culex quinquefasciatus (Diptera:Culicidae) from Cordoba city Argentina.,10.1016/j.actatropica.2015.02.010,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2015
NA,GRE002,survival,percent surviving life stage,100,percent,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cordoba Argentina,field,NA,0,decimal,-31.366667,-64.2,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 and L2,NA,21.6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Grech et al. 2015. Effect of temperature on life history traits during immature development of Aedes aegypti and Culex quinquefasciatus (Diptera:Culicidae) from Cordoba city Argentina.,10.1016/j.actatropica.2015.02.010,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2015
NA,GRE002,survival,percent surviving life stage,100,percent,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cordoba Argentina,field,NA,0,decimal,-31.366667,-64.2,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 and L2,NA,25.3,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Grech et al. 2015. Effect of temperature on life history traits during immature development of Aedes aegypti and Culex quinquefasciatus (Diptera:Culicidae) from Cordoba city Argentina.,10.1016/j.actatropica.2015.02.010,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2015
NA,GRE002,survival,percent surviving life stage,95,percent,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cordoba Argentina,field,NA,0,decimal,-31.366667,-64.2,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,15.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Grech et al. 2015. Effect of temperature on life history traits during immature development of Aedes aegypti and Culex quinquefasciatus (Diptera:Culicidae) from Cordoba city Argentina.,10.1016/j.actatropica.2015.02.010,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,GRE002,survival,percent surviving life stage,95,percent,0.67,0.67,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cordoba Argentina,field,NA,0,decimal,-31.366667,-64.2,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,17.9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Grech et al. 2015. Effect of temperature on life history traits during immature development of Aedes aegypti and Culex quinquefasciatus (Diptera:Culicidae) from Cordoba city Argentina.,10.1016/j.actatropica.2015.02.010,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,GRE002,survival,percent surviving life stage,98,percent,2,2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cordoba Argentina,field,NA,0,decimal,-31.366667,-64.2,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,21.6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Grech et al. 2015. Effect of temperature on life history traits during immature development of Aedes aegypti and Culex quinquefasciatus (Diptera:Culicidae) from Cordoba city Argentina.,10.1016/j.actatropica.2015.02.010,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,GRE002,survival,percent surviving life stage,100,percent,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cordoba Argentina,field,NA,0,decimal,-31.366667,-64.2,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,25.3,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Grech et al. 2015. Effect of temperature on life history traits during immature development of Aedes aegypti and Culex quinquefasciatus (Diptera:Culicidae) from Cordoba city Argentina.,10.1016/j.actatropica.2015.02.010,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,GRE002,survival,percent surviving life stage,96,percent,2.2,2.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cordoba Argentina,field,NA,0,decimal,-31.366667,-64.2,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,15.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Grech et al. 2015. Effect of temperature on life history traits during immature development of Aedes aegypti and Culex quinquefasciatus (Diptera:Culicidae) from Cordoba city Argentina.,10.1016/j.actatropica.2015.02.010,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,GRE002,survival,percent surviving life stage,91,percent,0.67,0.67,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cordoba Argentina,field,NA,0,decimal,-31.366667,-64.2,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,17.9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Grech et al. 2015. Effect of temperature on life history traits during immature development of Aedes aegypti and Culex quinquefasciatus (Diptera:Culicidae) from Cordoba city Argentina.,10.1016/j.actatropica.2015.02.010,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,GRE002,survival,percent surviving life stage,95,percent,1,1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cordoba Argentina,field,NA,0,decimal,-31.366667,-64.2,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,21.6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Grech et al. 2015. Effect of temperature on life history traits during immature development of Aedes aegypti and Culex quinquefasciatus (Diptera:Culicidae) from Cordoba city Argentina.,10.1016/j.actatropica.2015.02.010,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,GRE002,survival,percent surviving life stage,81,percent,6.36,6.36,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cordoba Argentina,field,NA,0,decimal,-31.366667,-64.2,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,25.3,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Grech et al. 2015. Effect of temperature on life history traits during immature development of Aedes aegypti and Culex quinquefasciatus (Diptera:Culicidae) from Cordoba city Argentina.,10.1016/j.actatropica.2015.02.010,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,GRE002,survival,percent surviving life stage,31,percent,3.33,3.33,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cordoba Argentina,field,NA,0,decimal,-31.366667,-64.2,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,15.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Grech et al. 2015. Effect of temperature on life history traits during immature development of Aedes aegypti and Culex quinquefasciatus (Diptera:Culicidae) from Cordoba city Argentina.,10.1016/j.actatropica.2015.02.010,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,GRE002,survival,percent surviving life stage,82,percent,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cordoba Argentina,field,NA,0,decimal,-31.366667,-64.2,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,17.9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Grech et al. 2015. Effect of temperature on life history traits during immature development of Aedes aegypti and Culex quinquefasciatus (Diptera:Culicidae) from Cordoba city Argentina.,10.1016/j.actatropica.2015.02.010,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,GRE002,survival,percent surviving life stage,94,percent,3,3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cordoba Argentina,field,NA,0,decimal,-31.366667,-64.2,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21.6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Grech et al. 2015. Effect of temperature on life history traits during immature development of Aedes aegypti and Culex quinquefasciatus (Diptera:Culicidae) from Cordoba city Argentina.,10.1016/j.actatropica.2015.02.010,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,GRE002,survival,percent surviving life stage,81,percent,6.36,6.36,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cordoba Argentina,field,NA,0,decimal,-31.366667,-64.2,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,25.3,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Grech et al. 2015. Effect of temperature on life history traits during immature development of Aedes aegypti and Culex quinquefasciatus (Diptera:Culicidae) from Cordoba city Argentina.,10.1016/j.actatropica.2015.02.010,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,GRE002,survival,percent surviving life stage,95,percent,2.89,2.89,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cordoba Argentina,field,NA,0,decimal,-31.366667,-64.2,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,15.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Grech et al. 2015. Effect of temperature on life history traits during immature development of Aedes aegypti and Culex quinquefasciatus (Diptera:Culicidae) from Cordoba city Argentina.,10.1016/j.actatropica.2015.02.010,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,GRE002,survival,percent surviving life stage,91,percent,1.76,1.76,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cordoba Argentina,field,NA,0,decimal,-31.366667,-64.2,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,17.9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Grech et al. 2015. Effect of temperature on life history traits during immature development of Aedes aegypti and Culex quinquefasciatus (Diptera:Culicidae) from Cordoba city Argentina.,10.1016/j.actatropica.2015.02.010,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,GRE002,survival,percent surviving life stage,96,percent,3,3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cordoba Argentina,field,NA,0,decimal,-31.366667,-64.2,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,21.6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Grech et al. 2015. Effect of temperature on life history traits during immature development of Aedes aegypti and Culex quinquefasciatus (Diptera:Culicidae) from Cordoba city Argentina.,10.1016/j.actatropica.2015.02.010,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,GRE002,survival,percent surviving life stage,77,percent,1.33,1.33,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cordoba Argentina,field,NA,0,decimal,-31.366667,-64.2,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,25.3,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Grech et al. 2015. Effect of temperature on life history traits during immature development of Aedes aegypti and Culex quinquefasciatus (Diptera:Culicidae) from Cordoba city Argentina.,10.1016/j.actatropica.2015.02.010,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,GRE002,survival,percentage surviving life stage,26,percent,1.67,1.67,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cordoba Argentina,field,NA,0,decimal,-31.366667,-64.2,Aedes aegypti,NA,NA,NA,39,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,15.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Grech et al. 2015. Effect of temperature on life history traits during immature development of Aedes aegypti and Culex quinquefasciatus (Diptera:Culicidae) from Cordoba city Argentina.,10.1016/j.actatropica.2015.02.010,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2015
NA,GRE002,survival,percentage surviving life stage,73,percent,1.76,1.76,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cordoba Argentina,field,NA,0,decimal,-31.366667,-64.2,Aedes aegypti,NA,NA,NA,110,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,17.9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Grech et al. 2015. Effect of temperature on life history traits during immature development of Aedes aegypti and Culex quinquefasciatus (Diptera:Culicidae) from Cordoba city Argentina.,10.1016/j.actatropica.2015.02.010,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2015
NA,GRE002,survival,percentage surviving life stage,92,percent,2,2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cordoba Argentina,field,NA,0,decimal,-31.366667,-64.2,Aedes aegypti,NA,NA,NA,138,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,21.6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Grech et al. 2015. Effect of temperature on life history traits during immature development of Aedes aegypti and Culex quinquefasciatus (Diptera:Culicidae) from Cordoba city Argentina.,10.1016/j.actatropica.2015.02.010,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2015
NA,GRE002,survival,percentage surviving life stage,57,percent,7.51,7.51,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cordoba Argentina,field,NA,0,decimal,-31.366667,-64.2,Aedes aegypti,NA,NA,NA,86,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,25.3,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Grech et al. 2015. Effect of temperature on life history traits during immature development of Aedes aegypti and Culex quinquefasciatus (Diptera:Culicidae) from Cordoba city Argentina.,10.1016/j.actatropica.2015.02.010,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2015
NA,DM02,development time,average duration of life stage,7.1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Ciudad Autonoma de Buenos Aires Argentina,field,NA,0,decimal,-34.603683,-58.38156,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,18.5,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM02,development time,average duration of life stage,6.8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Resistencia Argentina,field,NA,0,decimal,-27.450217,-58.99277,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,18.5,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM02,development time,average duration of life stage,6.6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,San Bernardo del Tuyu Argentina,field,NA,0,decimal,-36.686367,-56.679167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,18.5,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM02,development time,average duration of life stage,5.4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Ciudad Autonoma de Buenos Aires Argentina,field,NA,0,decimal,-34.603683,-58.38156,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,24,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM02,development time,average duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Resistencia Argentina,field,NA,0,decimal,-27.450217,-58.99277,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,24,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM02,development time,average duration of life stage,5.8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,San Bernardo del Tuyu Argentina,field,NA,0,decimal,-36.686367,-56.679167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,24,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM02,development time,average duration of life stage,6.3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Ciudad Autonoma de Buenos Aires Argentina,field,NA,0,decimal,-34.603683,-58.38156,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,14,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM02,development time,average duration of life stage,6.6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Resistencia Argentina,field,NA,0,decimal,-27.450217,-58.99277,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,14,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM02,development time,average duration of life stage,6.3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,San Bernardo del Tuyu Argentina,field,NA,0,decimal,-36.686367,-56.679167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,14,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,NA,survival,percentage surviving life stage,32,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,New Jersey Agricultural Experiment Station New Brunswick,colony,NA,0,decimal,40.48198384,-74.43761988,Aedes aegypti,Yellow fever mosquito,NA,NA,64,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,15.6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Headlee 1942. A continuation of the studies of relative effects on insect metabolism of temperatures derived from constant and variable sources. J. Econ. Entomol. 35: 785-786,10.1093/jee/35.5.785,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/1942
NA,NA,survival,percentage surviving life stage,79,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,New Jersey Agricultural Experiment Station New Brunswick,colony,NA,0,decimal,40.48198384,-74.43761988,Aedes aegypti,Yellow fever mosquito,NA,NA,158,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,17.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Headlee 1942. A continuation of the studies of relative effects on insect metabolism of temperatures derived from constant and variable sources. J. Econ. Entomol. 35: 785-786,10.1093/jee/35.5.785,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/1942
NA,NA,survival,percentage surviving life stage,90,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,New Jersey Agricultural Experiment Station New Brunswick,colony,NA,0,decimal,40.48198384,-74.43761988,Aedes aegypti,Yellow fever mosquito,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,18.9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Headlee 1942. A continuation of the studies of relative effects on insect metabolism of temperatures derived from constant and variable sources. J. Econ. Entomol. 35: 785-786,10.1093/jee/35.5.785,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/1942
NA,NA,survival,percentage surviving life stage,83,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,New Jersey Agricultural Experiment Station New Brunswick,colony,NA,0,decimal,40.48198384,-74.43761988,Aedes aegypti,Yellow fever mosquito,NA,NA,166,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,23.6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Headlee 1942. A continuation of the studies of relative effects on insect metabolism of temperatures derived from constant and variable sources. J. Econ. Entomol. 35: 785-786,10.1093/jee/35.5.785,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/1942
NA,NA,survival,percentage surviving life stage,69,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,New Jersey Agricultural Experiment Station New Brunswick,colony,NA,0,decimal,40.48198384,-74.43761988,Aedes aegypti,Yellow fever mosquito,NA,NA,138,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Headlee 1942. A continuation of the studies of relative effects on insect metabolism of temperatures derived from constant and variable sources. J. Econ. Entomol. 35: 785-786,10.1093/jee/35.5.785,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/1942
NA,NA,survival,mean percentage surviving life stage,85.9,percent,2.41,2.41,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,86,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,15,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2019
NA,NA,survival,mean percentage surviving life stage,91.7,percent,2.63,2.63,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,92,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2019
NA,NA,survival,mean percentage surviving life stage,99,percent,1,1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,99,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2019
NA,NA,survival,mean percentage surviving life stage,91.2,percent,1.05,1.05,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,91,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2019
NA,NA,survival,mean percentage surviving life stage,97,percent,2,2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,97,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2019
NA,NA,survival,mean percentage surviving life stage,44.2,percent,3.16,3.16,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,44,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,15,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2019
NA,NA,survival,mean percentage surviving life stage,87.8,percent,3.66,3.66,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,88,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2019
NA,NA,survival,mean percentage surviving life stage,91.8,percent,3.35,3.35,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,92,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2019
NA,NA,survival,mean percentage surviving life stage,87.9,percent,3.42,3.42,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,88,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2019
NA,NA,survival,mean percentage surviving life stage,86.3,percent,2.32,2.32,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,86,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2019
NA,NA,survival,mean percentage surviving life stage as a function of larval food quantity/type,92.1,percent,2.46,2.46,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,oak-infused tap water with no additional larval food. very light = 1 light = 2 medium = 3 high = 4 very high = 5,1,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,92,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2019
NA,NA,survival,mean percentage surviving life stage as a function of larval food quantity/type,92.5,percent,2.78,2.78,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,deionized tap water with 25 mg larval food (1:1 ratio of lactalbumin:brewer yeast) added every other weekday. very light = 1 light = 2 medium = 3 high = 4 very high = 5,2,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,93,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2019
NA,NA,survival,mean percentage surviving life stage as a function of larval food quantity/type,99,percent,1,1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,oak-infused tap water with 25 mg larval food added every other weekday. very light = 1 light = 2 medium = 3 high = 4 very high = 5,3,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,99,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2019
NA,NA,survival,mean percentage surviving life stage as a function of larval food quantity/type,92.3,percent,2.46,2.46,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,oak-infused tap water with 25 mg modified diet (1:1 ratio of liver powder:brewer yeast) added every other weekday. very light = 1 light = 2 medium = 3 high = 4 very high = 5,4,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,92,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2019
NA,NA,survival,mean percentage surviving life stage as a function of larval food quantity/type,82.2,percent,8.43,8.43,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,oak-infused tap water with 25 mg larval food (1:1 ratio of lactalbumin:brewer yeast) daily. very light = 1 light = 2 medium = 3 high = 4 very high = 5,5,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,82,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2019
NA,NA,survival,mean percentage surviving life stage as a function of larval food quantity/type,78.4,percent,4.49,4.49,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,oak-infused tap water with no additional larval food. very light = 1 light = 2 medium = 3 high = 4 very high = 5,1,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,78,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2019
NA,NA,survival,mean percentage surviving life stage as a function of larval food quantity/type,92.5,percent,3.21,3.21,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,deionized tap water with 25 mg larval food (1:1 ratio of lactalbumin:brewer yeast) added every other weekday. very light = 1 light = 2 medium = 3 high = 4 very high = 5,2,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,93,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2019
NA,NA,survival,mean percentage surviving life stage as a function of larval food quantity/type,91.8,percent,3.35,3.35,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,oak-infused tap water with 25 mg larval food added every other weekday. very light = 1 light = 2 medium = 3 high = 4 very high = 5,3,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,92,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2019
NA,NA,survival,mean percentage surviving life stage as a function of larval food quantity/type,76.7,percent,4.14,4.14,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,oak-infused tap water with 25 mg modified diet (1:1 ratio of liver powder:brewer yeast) added every other weekday. very light = 1 light = 2 medium = 3 high = 4 very high = 5,4,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,77,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2019
NA,NA,survival,mean percentage surviving life stage as a function of larval food quantity/type,84.9,percent,4.35,4.35,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,oak-infused tap water with 25 mg larval food (1:1 ratio of lactalbumin:brewer yeast) daily. very light = 1 light = 2 medium = 3 high = 4 very high = 5,5,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,85,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of individuals that survived life stage from n=100 at the start of the experiment,TRUE,01/01/2019
NA,NA,body size,average wing length,2.89,mm,0.037,0.037,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,15,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,average wing length,2.64,mm,0.032,0.032,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,average wing length,2.84,mm,0.025,0.025,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,average wing length,2.57,mm,0.019,0.019,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,average wing length,2.48,mm,0.019,0.019,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,average wing length,3.12,mm,0.025,0.025,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,15,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,average wing length,2.81,mm,0.025,0.025,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,average wing length,2.98,mm,0.013,0.013,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,average wing length,2.53,mm,0.025,0.025,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,average wing length,2.58,mm,0.019,0.019,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,average wing length,2.46,mm,0.034,0.034,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,15,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,average wing length,2.2,mm,0.024,0.024,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,average wing length,2.27,mm,0.012,0.012,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,average wing length,2.14,mm,0.024,0.024,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,average wing length,2.06,mm,0.014,0.014,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,average wing length,2.61,mm,0.012,0.012,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,15,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,average wing length,2.34,mm,0.017,0.017,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,average wing length,2.39,mm,0.017,0.017,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,average wing length,2.09,mm,0.019,0.019,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,average wing length,2.09,mm,0.012,0.012,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,DM02,development time,average duration of life stage,3.7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Ciudad Autonoma de Buenos Aires Argentina,field,NA,0,decimal,-34.603683,-58.38156,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,18.5,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM02,development time,average duration of life stage,3.7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Resistencia Argentina,field,NA,0,decimal,-27.450217,-58.99277,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,18.5,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM02,development time,average duration of life stage,3.9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,San Bernardo del Tuyu Argentina,field,NA,0,decimal,-36.686367,-56.679167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,18.5,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM02,development time,average duration of life stage,2.1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Ciudad Autonoma de Buenos Aires Argentina,field,NA,0,decimal,-34.603683,-58.38156,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,24,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM02,development time,average duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,Resistencia Argentina,field,NA,0,decimal,-27.450217,-58.99277,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,24,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,DM02,development time,average duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,NA,NA,NA,NA,01/07/2015,01/08/2015,NA,daily,NA,San Bernardo del Tuyu Argentina,field,NA,0,decimal,-36.686367,-56.679167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,24,Celsius,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,De Majo et al. 2022. Comparative Study on the Thermal Performance of Three Aedes aegypti (Diptera: Culicidae) Populations From Argentina. J. Med. Entomol. 58:4,10.1093/jme/tjab017,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2022
NA,PHX211,development time,mean duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,80,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,5,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,trait value was set to zero because complete juvenile mortality occured at this temperature. interactor1number is the number of individuals that did not survive life stage from the initial number of individuals at the start of the experiment (n=80),TRUE,01/01/2009
NA,PHX211,development time,mean duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,80,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,10,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,trait value was set to zero because complete juvenile mortality occured at this temperature. interactor1number is the number of individuals that did not survive life stage from the initial number of individuals at the start of the experiment (n=80),TRUE,01/01/2009
NA,PHX211,development time,mean duration of life stage,35,days,0.9,0.9,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,15,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from an intial number of n=80,TRUE,01/01/2009
NA,PHX211,development time,mean duration of life stage,14.4,days,0.4,0.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,62,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,20,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from an intial number of n=80,TRUE,01/01/2009
NA,NA,body size,average wing length as a function of larval food quantity/type,2.25,mm,0.055,0.055,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,oak-infused tap water with no additional larval food. very light = 1 light = 2 medium = 3 high = 4 very high = 5,1,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,average wing length as a function of larval food quantity/type,2.51,mm,0.024,0.024,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,deionized tap water with 25 mg larval food (1:1 ratio of lactalbumin:brewer yeast) added every other weekday. very light = 1 light = 2 medium = 3 high = 4 very high = 5,2,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,average wing length as a function of larval food quantity/type,2.82,mm,0.027,0.027,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,oak-infused tap water with 25 mg larval food added every other weekday. very light = 1 light = 2 medium = 3 high = 4 very high = 5,3,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,average wing length as a function of larval food quantity/type,2.72,mm,0.015,0.015,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,oak-infused tap water with 25 mg modified diet (1:1 ratio of liver powder:brewer yeast) added every other weekday. very light = 1 light = 2 medium = 3 high = 4 very high = 5,4,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,average wing length as a function of larval food quantity/type,2.65,mm,0.023,0.023,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,oak-infused tap water with 25 mg larval food (1:1 ratio of lactalbumin:brewer yeast) daily. very light = 1 light = 2 medium = 3 high = 4 very high = 5,5,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,average wing length as a function of larval food quantity/type,2.1,mm,0.051,0.051,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,oak-infused tap water with no additional larval food. very light = 1 light = 2 medium = 3 high = 4 very high = 5,1,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,average wing length as a function of larval food quantity/type,2.56,mm,0.027,0.027,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,deionized tap water with 25 mg larval food (1:1 ratio of lactalbumin:brewer yeast) added every other weekday. very light = 1 light = 2 medium = 3 high = 4 very high = 5,2,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,average wing length as a function of larval food quantity/type,2.96,mm,0.024,0.024,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,oak-infused tap water with 25 mg larval food added every other weekday. very light = 1 light = 2 medium = 3 high = 4 very high = 5,3,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,average wing length as a function of larval food quantity/type,2.75,mm,0.012,0.012,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,oak-infused tap water with 25 mg modified diet (1:1 ratio of liver powder:brewer yeast) added every other weekday. very light = 1 light = 2 medium = 3 high = 4 very high = 5,4,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,average wing length as a function of larval food quantity/type,2.74,mm,0.024,0.024,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,oak-infused tap water with 25 mg larval food (1:1 ratio of lactalbumin:brewer yeast) daily. very light = 1 light = 2 medium = 3 high = 4 very high = 5,5,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,average wing length as a function of larval food quantity/type,1.86,mm,0.043,0.043,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,oak-infused tap water with no additional larval food. very light = 1 light = 2 medium = 3 high = 4 very high = 5,1,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,average wing length as a function of larval food quantity/type,2.08,mm,0.017,0.017,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,deionized tap water with 25 mg larval food (1:1 ratio of lactalbumin:brewer yeast) added every other weekday. very light = 1 light = 2 medium = 3 high = 4 very high = 5,2,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,average wing length as a function of larval food quantity/type,2.29,mm,0.016,0.016,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,oak-infused tap water with 25 mg larval food added every other weekday. very light = 1 light = 2 medium = 3 high = 4 very high = 5,3,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,average wing length as a function of larval food quantity/type,2.13,mm,0.013,0.013,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,oak-infused tap water with 25 mg modified diet (1:1 ratio of liver powder:brewer yeast) added every other weekday. very light = 1 light = 2 medium = 3 high = 4 very high = 5,4,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,average wing length as a function of larval food quantity/type,2.19,mm,0.028,0.028,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,oak-infused tap water with 25 mg larval food (1:1 ratio of lactalbumin:brewer yeast) daily. very light = 1 light = 2 medium = 3 high = 4 very high = 5,5,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,average wing length as a function of larval food quantity/type,1.84,mm,0.062,0.062,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,oak-infused tap water with no additional larval food. very light = 1 light = 2 medium = 3 high = 4 very high = 5,1,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,average wing length as a function of larval food quantity/type,2.15,mm,0.019,0.019,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,deionized tap water with 25 mg larval food (1:1 ratio of lactalbumin:brewer yeast) added every other weekday. very light = 1 light = 2 medium = 3 high = 4 very high = 5,2,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,average wing length as a function of larval food quantity/type,2.41,mm,0.013,0.013,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,oak-infused tap water with 25 mg larval food added every other weekday. very light = 1 light = 2 medium = 3 high = 4 very high = 5,3,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,average wing length as a function of larval food quantity/type,2.21,mm,0.013,0.013,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,oak-infused tap water with 25 mg modified diet (1:1 ratio of liver powder:brewer yeast) added every other weekday. very light = 1 light = 2 medium = 3 high = 4 very high = 5,4,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,average wing length as a function of larval food quantity/type,2.25,mm,0.03,0.03,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,oak-infused tap water with 25 mg larval food (1:1 ratio of lactalbumin:brewer yeast) daily. very light = 1 light = 2 medium = 3 high = 4 very high = 5,5,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,PHX211,development time,mean duration of life stage,10.4,days,0.7,0.7,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,61,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,25,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from an intial number of n=80,TRUE,01/01/2009
NA,PHX211,development time,mean duration of life stage,8.8,days,0.6,0.6,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,54,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,30,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from an intial number of n=80,TRUE,01/01/2009
NA,PHX211,development time,mean duration of life stage,12.3,days,0.7,0.7,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,35,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from an intial number of n=120,TRUE,01/01/2009
NA,PHX211,development time,mean duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,80,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,40,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,text,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,trait value was set to zero because complete juvenile mortality occured at this temperature. interactor1number is the number of individuals that did not survive life stage from the initial number of individuals at the start of the experiment (n=80),TRUE,01/01/2009
NA,PHX211,development time,mean duration of life stage,11,days,1.3,1.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,5,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX211,development time,mean duration of life stage,2,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,10,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX211,development time,mean duration of life stage,7.4,days,1.8,1.8,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,15,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX211,development time,mean duration of life stage,2.9,days,0.4,0.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,20,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX211,development time,mean duration of life stage,4.5,days,0.7,0.7,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,25,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX211,development time,mean duration of life stage,6.7,days,0.07,0.07,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,30,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX211,development time,mean duration of life stage,7.1,days,0.8,0.8,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,35,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX211,development time,mean duration of life stage,5.6,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,15,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX211,development time,mean duration of life stage,3,days,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,20,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX211,development time,mean duration of life stage,2.1,days,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,25,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX211,development time,mean duration of life stage,1.4,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,30,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX211,development time,mean duration of life stage,1.7,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,35,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX211,development time,mean duration of life stage,3.3,days,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,15,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX211,development time,mean duration of life stage,1.4,days,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,20,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX211,development time,mean duration of life stage,1.2,days,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,25,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX211,development time,mean duration of life stage,1.3,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,30,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX211,development time,mean duration of life stage,1.2,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,35,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX211,development time,mean duration of life stage,4.6,days,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,15,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX211,development time,mean duration of life stage,2.1,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,20,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX211,development time,mean duration of life stage,1.2,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,25,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX211,development time,mean duration of life stage,1.4,days,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,30,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX211,development time,mean duration of life stage,2.4,days,0.4,0.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,35,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX211,development time,mean duration of life stage,13.4,days,0.8,0.8,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,15,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX211,development time,mean duration of life stage,4.1,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,20,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX211,development time,mean duration of life stage,3.3,days,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,25,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX211,development time,mean duration of life stage,3,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,30,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX211,development time,mean duration of life stage,6.8,days,1.1,1.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,35,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX211,development time,mean duration of life stage,8.7,days,0.6,0.6,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,15,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX211,development time,mean duration of life stage,4.1,days,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,20,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX211,development time,mean duration of life stage,2.7,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,25,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX211,development time,mean duration of life stage,1.9,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,30,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX211,development time,mean duration of life stage,1.7,days,0.7,0.7,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Saint-Pierre Reunion Island,field,NA,0,decimal,-21.3419,55.4778,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,35,Celsius,NA,27.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Delatte et al. 2009. Influence of temperature on immature development survival longevity fecundity and gonotrophic cycles of Aedes albopictus vector of chikungunya and dengue in the Indian Ocean. J Med Entomol. 46: 33-41.,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),20.75,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,182,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),20.4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,184,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),20.239,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),24.141,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,163,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),21.82,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,166,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),21.222,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,153,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),21.39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,177,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),21.148,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,169,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),20.91,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,162,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),22.464,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,151,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),23.122,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,148,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),22.157,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,140,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),24.055,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,127,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),23.343,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,143,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),23.298,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,141,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),23.325,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,154,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),22.599,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,152,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),22.394,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,155,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),12.824,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,165,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),13.216,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,176,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),12.047,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,192,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),12.819,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,138,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),13.676,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,176,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),13.081,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,186,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),13.557,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,176,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),13.629,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,175,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),12.955,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,154,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),14.538,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,130,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),13.906,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,171,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),14.141,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,142,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),13.029,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,171,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),12.469,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,143,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),11.969,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,161,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),13.879,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,149,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),13.251,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,163,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),13.407,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,172,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),7.878,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,189,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),9.025,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,198,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),8.694,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),9.473,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,186,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),9.098,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,173,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),9.527,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,184,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),8.712,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,184,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),8.963,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,187,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),8.693,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,192,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),9.609,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,192,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),9.163,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,166,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),9.195,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,190,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),8.679,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,196,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),9.021,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,195,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),8.743,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,187,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),9.462,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,197,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),9.929,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,169,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),9.261,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,188,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),8.503,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,185,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),8.932,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,190,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),8.226,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,177,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),8.606,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,165,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),8.523,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,174,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),8.538,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,182,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),8.253,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,190,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),8.759,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,187,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),8.386,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,171,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),8.426,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,155,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,infection rate,number of CHIKV-positive mosquito bodies per number of fed females,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Freiburg Baden Wuerttemberg Germany,colony (F8-F10),01/08/2015,4,decimal,48.537778,9.041111,Aedes albopictus,NA,NA,NA,32,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,NA,NA,18,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Heitmann et al. 2018. Experimental risk assessment for chikungunya virus transmission based on vector competence distribution and temperature suitability in Europe 2018. Euro Surveill 23:29,10.2807/1560-7917.ES.2018.23.29.1800033,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of infected individuals out of 32 tested,TRUE,01/01/2018
NA,NA,infection rate,number of CHIKV-positive mosquito bodies per number of fed females,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Freiburg Baden Wuerttemberg Germany,colony (F8-F10),01/08/2015,4,decimal,48.537778,9.041111,Aedes albopictus,NA,NA,NA,23,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,NA,NA,21,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Heitmann et al. 2018. Experimental risk assessment for chikungunya virus transmission based on vector competence distribution and temperature suitability in Europe 2018. Euro Surveill 23:29,10.2807/1560-7917.ES.2018.23.29.1800033,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of infected individuals out of 23 tested,TRUE,01/01/2018
NA,NA,infection rate,number of CHIKV-positive mosquito bodies per number of fed females,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Freiburg Baden Wuerttemberg Germany,colony (F8-F10),01/08/2015,4,decimal,48.537778,9.041111,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,NA,NA,24,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Heitmann et al. 2018. Experimental risk assessment for chikungunya virus transmission based on vector competence distribution and temperature suitability in Europe 2018. Euro Surveill 23:29,10.2807/1560-7917.ES.2018.23.29.1800033,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of infected individuals out of 24 tested,TRUE,01/01/2018
NA,NA,infection rate,number of CHIKV-positive mosquito bodies per number of fed females,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mandatoriccio Calabria Italy,colony (F8-F10),01/08/2015,4,decimal,39.46563247,16.83649571,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,NA,NA,18,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Heitmann et al. 2018. Experimental risk assessment for chikungunya virus transmission based on vector competence distribution and temperature suitability in Europe 2018. Euro Surveill 23:29,10.2807/1560-7917.ES.2018.23.29.1800033,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of infected individuals out of 30 tested,TRUE,01/01/2018
NA,NA,infection rate,number of CHIKV-positive mosquito bodies per number of fed females,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mandatoriccio Calabria Italy,colony (F8-F10),01/08/2015,4,decimal,39.46563247,16.83649571,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,NA,NA,21,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Heitmann et al. 2018. Experimental risk assessment for chikungunya virus transmission based on vector competence distribution and temperature suitability in Europe 2018. Euro Surveill 23:29,10.2807/1560-7917.ES.2018.23.29.1800033,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of infected individuals out of 30 tested,TRUE,01/01/2018
NA,NA,infection rate,number of CHIKV-positive mosquito bodies per number of fed females,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mandatoriccio Calabria Italy,colony (F8-F10),01/08/2015,4,decimal,39.46563247,16.83649571,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,NA,NA,24,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Heitmann et al. 2018. Experimental risk assessment for chikungunya virus transmission based on vector competence distribution and temperature suitability in Europe 2018. Euro Surveill 23:29,10.2807/1560-7917.ES.2018.23.29.1800033,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of infected individuals out of 24 tested,TRUE,01/01/2018
NA,NA,transmission rate,percentage of mosquitoes with CHIKV-positive saliva per number of mosquitoes with CHIKV-positive bodies,50,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Freiburg Baden Wuerttemberg Germany,colony (F8-F10),01/08/2015,4,decimal,48.537778,9.041111,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,NA,NA,18,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Heitmann et al. 2018. Experimental risk assessment for chikungunya virus transmission based on vector competence distribution and temperature suitability in Europe 2018. Euro Surveill 23:29,10.2807/1560-7917.ES.2018.23.29.1800033,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of infected individuals out of 32 tested,TRUE,01/01/2018
NA,NA,transmission rate,percentage of mosquitoes with CHIKV-positive saliva per number of mosquitoes with CHIKV-positive bodies,39.1,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Freiburg Baden Wuerttemberg Germany,colony (F8-F10),01/08/2015,4,decimal,48.537778,9.041111,Aedes albopictus,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,NA,NA,21,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Heitmann et al. 2018. Experimental risk assessment for chikungunya virus transmission based on vector competence distribution and temperature suitability in Europe 2018. Euro Surveill 23:29,10.2807/1560-7917.ES.2018.23.29.1800033,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of infected individuals out of 23 tested,TRUE,01/01/2018
NA,NA,transmission rate,percentage of mosquitoes with CHIKV-positive saliva per number of mosquitoes with CHIKV-positive bodies,37.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Freiburg Baden Wuerttemberg Germany,colony (F8-F10),01/08/2015,4,decimal,48.537778,9.041111,Aedes albopictus,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,NA,NA,24,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Heitmann et al. 2018. Experimental risk assessment for chikungunya virus transmission based on vector competence distribution and temperature suitability in Europe 2018. Euro Surveill 23:29,10.2807/1560-7917.ES.2018.23.29.1800033,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of infected individuals out of 24 tested,TRUE,01/01/2018
NA,NA,transmission rate,percentage of mosquitoes with CHIKV-positive saliva per number of mosquitoes with CHIKV-positive bodies,63.3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mandatoriccio Calabria Italy,colony (F8-F10),01/08/2015,4,decimal,39.46563247,16.83649571,Aedes albopictus,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,NA,NA,18,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Heitmann et al. 2018. Experimental risk assessment for chikungunya virus transmission based on vector competence distribution and temperature suitability in Europe 2018. Euro Surveill 23:29,10.2807/1560-7917.ES.2018.23.29.1800033,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of infected individuals out of 30 tested,TRUE,01/01/2018
NA,NA,transmission rate,percentage of mosquitoes with CHIKV-positive saliva per number of mosquitoes with CHIKV-positive bodies,63.3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mandatoriccio Calabria Italy,colony (F8-F10),01/08/2015,4,decimal,39.46563247,16.83649571,Aedes albopictus,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,NA,NA,21,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Heitmann et al. 2018. Experimental risk assessment for chikungunya virus transmission based on vector competence distribution and temperature suitability in Europe 2018. Euro Surveill 23:29,10.2807/1560-7917.ES.2018.23.29.1800033,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of infected individuals out of 30 tested,TRUE,01/01/2018
NA,NA,transmission rate,percentage of mosquitoes with CHIKV-positive saliva per number of mosquitoes with CHIKV-positive bodies,37.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mandatoriccio Calabria Italy,colony (F8-F10),01/08/2015,4,decimal,39.46563247,16.83649571,Aedes albopictus,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,NA,NA,24,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Heitmann et al. 2018. Experimental risk assessment for chikungunya virus transmission based on vector competence distribution and temperature suitability in Europe 2018. Euro Surveill 23:29,10.2807/1560-7917.ES.2018.23.29.1800033,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of infected individuals out of 24 tested,TRUE,01/01/2018
NA,NA,infection rate,percentage of ZIKV RT-PCR positive mosquito bodies (abdomen/thorax) divided by the total number of blood-fed individuals,45,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,completion of the first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,Baix Llobregat Barcelona Spain,colony,01/01/2009,2,decimal,41.430556,1.966667,Aedes albopictus,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,NA,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hernandez-Triana et al. 2009. Evidence for infection but not transmission of Zika virus by Aedes albopictus (Diptera: Culicidae) from Spain. Parasites Vectors 12: 204,10.1186/s13071-019-3467-y,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,ZIKV (strain H/PPF/2013 isolated in French Polynesia. GenBank: KJ776791). interactor1number is the number of positive individuals out of 9 tested,TRUE,01/01/2009
NA,NA,infection rate,percentage of ZIKV RT-PCR positive mosquito bodies (abdomen/thorax) divided by the total number of blood-fed individuals,31.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,completion of the second gonotrophic cycle,14,days,NA,NA,NA,NA,NA,Baix Llobregat Barcelona Spain,colony,01/01/2009,2,decimal,41.430556,1.966667,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,NA,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hernandez-Triana et al. 2009. Evidence for infection but not transmission of Zika virus by Aedes albopictus (Diptera: Culicidae) from Spain. Parasites Vectors 12: 204,10.1186/s13071-019-3467-y,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,ZIKV (strain H/PPF/2013 isolated in French Polynesia. GenBank: KJ776791). interactor1number is the number of positive individuals out of 16 tested,TRUE,01/01/2009
NA,NA,infection rate,percentage of ZIKV RT-PCR positive mosquito bodies (abdomen/thorax) divided by the total number of blood-fed individuals,13.3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,completion of the third gonotrophic cycle,21,days,NA,NA,NA,NA,NA,Baix Llobregat Barcelona Spain,colony,01/01/2009,2,decimal,41.430556,1.966667,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,NA,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hernandez-Triana et al. 2009. Evidence for infection but not transmission of Zika virus by Aedes albopictus (Diptera: Culicidae) from Spain. Parasites Vectors 12: 204,10.1186/s13071-019-3467-y,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,ZIKV (strain H/PPF/2013 isolated in French Polynesia. GenBank: KJ776791). interactor1number is the number of positive individuals out of 15 tested,TRUE,01/01/2009
NA,NA,infection rate,percentage of ZIKV RT-PCR positive mosquito bodies (abdomen/thorax) divided by the total number of blood-fed individuals,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,completion of the first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,Baix Llobregat Barcelona Spain,colony,01/01/2009,2,decimal,41.430556,1.966667,Aedes albopictus,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,NA,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hernandez-Triana et al. 2009. Evidence for infection but not transmission of Zika virus by Aedes albopictus (Diptera: Culicidae) from Spain. Parasites Vectors 12: 204,10.1186/s13071-019-3467-y,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,ZIKV (strain H/PPF/2013 isolated in French Polynesia. GenBank: KJ776791). interactor1number is the number of positive individuals out of 7 tested,TRUE,01/01/2009
NA,NA,infection rate,percentage of ZIKV RT-PCR positive mosquito bodies (abdomen/thorax) divided by the total number of blood-fed individuals,60,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,completion of the second gonotrophic cycle,14,days,NA,NA,NA,NA,NA,Baix Llobregat Barcelona Spain,colony,01/01/2009,2,decimal,41.430556,1.966667,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,NA,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hernandez-Triana et al. 2009. Evidence for infection but not transmission of Zika virus by Aedes albopictus (Diptera: Culicidae) from Spain. Parasites Vectors 12: 204,10.1186/s13071-019-3467-y,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,ZIKV (strain H/PPF/2013 isolated in French Polynesia. GenBank: KJ776791). interactor1number is the number of positive individuals out of 10 tested,TRUE,01/01/2009
NA,NA,infection rate,percentage of ZIKV RT-PCR positive mosquito bodies (abdomen/thorax) divided by the total number of blood-fed individuals,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,completion of the third gonotrophic cycle,21,days,NA,NA,NA,NA,NA,Baix Llobregat Barcelona Spain,colony,01/01/2009,2,decimal,41.430556,1.966667,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,NA,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hernandez-Triana et al. 2009. Evidence for infection but not transmission of Zika virus by Aedes albopictus (Diptera: Culicidae) from Spain. Parasites Vectors 12: 204,10.1186/s13071-019-3467-y,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,ZIKV (strain H/PPF/2013 isolated in French Polynesia. GenBank: KJ776791). interactor1number is the number of positive individuals out of 16 tested,TRUE,01/01/2009
NA,NA,dissemination rate,percentage ZIKV RT-PCR positive legs divided by the number of positive bodies,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,completion of the first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,Baix Llobregat Barcelona Spain,colony,01/01/2009,2,decimal,41.430556,1.966667,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,NA,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hernandez-Triana et al. 2009. Evidence for infection but not transmission of Zika virus by Aedes albopictus (Diptera: Culicidae) from Spain. Parasites Vectors 12: 204,10.1186/s13071-019-3467-y,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,ZIKV (strain H/PPF/2013 isolated in French Polynesia. GenBank: KJ776791). interactor1number is the number of positive individuals out of 4 tested,TRUE,01/01/2009
NA,NA,dissemination rate,percentage ZIKV RT-PCR positive legs divided by the number of positive bodies,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,completion of the second gonotrophic cycle,14,days,NA,NA,NA,NA,NA,Baix Llobregat Barcelona Spain,colony,01/01/2009,2,decimal,41.430556,1.966667,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,NA,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hernandez-Triana et al. 2009. Evidence for infection but not transmission of Zika virus by Aedes albopictus (Diptera: Culicidae) from Spain. Parasites Vectors 12: 204,10.1186/s13071-019-3467-y,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,ZIKV (strain H/PPF/2013 isolated in French Polynesia. GenBank: KJ776791). interactor1number is the number of positive individuals out of 5 tested,TRUE,01/01/2009
NA,NA,dissemination rate,percentage ZIKV RT-PCR positive legs divided by the number of positive bodies,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,completion of the third gonotrophic cycle,21,days,NA,NA,NA,NA,NA,Baix Llobregat Barcelona Spain,colony,01/01/2009,2,decimal,41.430556,1.966667,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,NA,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hernandez-Triana et al. 2009. Evidence for infection but not transmission of Zika virus by Aedes albopictus (Diptera: Culicidae) from Spain. Parasites Vectors 12: 204,10.1186/s13071-019-3467-y,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,ZIKV (strain H/PPF/2013 isolated in French Polynesia. GenBank: KJ776791). interactor1number is the number of positive individuals out of 2 tested,TRUE,01/01/2009
NA,NA,dissemination rate,percentage ZIKV RT-PCR positive legs divided by the number of positive bodies,54,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,completion of the first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,Baix Llobregat Barcelona Spain,colony,01/01/2009,2,decimal,41.430556,1.966667,Aedes albopictus,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,NA,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hernandez-Triana et al. 2009. Evidence for infection but not transmission of Zika virus by Aedes albopictus (Diptera: Culicidae) from Spain. Parasites Vectors 12: 204,10.1186/s13071-019-3467-y,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,ZIKV (strain H/PPF/2013 isolated in French Polynesia. GenBank: KJ776791). interactor1number is the number of positive individuals out of 7 tested,TRUE,01/01/2009
NA,NA,dissemination rate,percentage ZIKV RT-PCR positive legs divided by the number of positive bodies,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,completion of the second gonotrophic cycle,14,days,NA,NA,NA,NA,NA,Baix Llobregat Barcelona Spain,colony,01/01/2009,2,decimal,41.430556,1.966667,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,NA,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hernandez-Triana et al. 2009. Evidence for infection but not transmission of Zika virus by Aedes albopictus (Diptera: Culicidae) from Spain. Parasites Vectors 12: 204,10.1186/s13071-019-3467-y,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,ZIKV (strain H/PPF/2013 isolated in French Polynesia. GenBank: KJ776791). interactor1number is the number of positive individuals out of 6 tested,TRUE,01/01/2009
NA,NA,dissemination rate,percentage ZIKV RT-PCR positive legs divided by the number of positive bodies,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,completion of the third gonotrophic cycle,21,days,NA,NA,NA,NA,NA,Baix Llobregat Barcelona Spain,colony,01/01/2009,2,decimal,41.430556,1.966667,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,NA,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hernandez-Triana et al. 2009. Evidence for infection but not transmission of Zika virus by Aedes albopictus (Diptera: Culicidae) from Spain. Parasites Vectors 12: 204,10.1186/s13071-019-3467-y,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,ZIKV (strain H/PPF/2013 isolated in French Polynesia. GenBank: KJ776791).,TRUE,01/01/2009
NA,NA,transmission rate,percentage of ZIKV RT-PCR positive saliva expectorate samples divided by the number of positive leg samples,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,completion of the first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,Baix Llobregat Barcelona Spain,colony,01/01/2009,2,decimal,41.430556,1.966667,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,NA,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hernandez-Triana et al. 2009. Evidence for infection but not transmission of Zika virus by Aedes albopictus (Diptera: Culicidae) from Spain. Parasites Vectors 12: 204,10.1186/s13071-019-3467-y,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,ZIKV (strain H/PPF/2013 isolated in French Polynesia. GenBank: KJ776791).,TRUE,01/01/2009
NA,NA,transmission rate,percentage of ZIKV RT-PCR positive saliva expectorate samples divided by the number of positive leg samples,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,completion of the second gonotrophic cycle,14,days,NA,NA,NA,NA,NA,Baix Llobregat Barcelona Spain,colony,01/01/2009,2,decimal,41.430556,1.966667,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,NA,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hernandez-Triana et al. 2009. Evidence for infection but not transmission of Zika virus by Aedes albopictus (Diptera: Culicidae) from Spain. Parasites Vectors 12: 204,10.1186/s13071-019-3467-y,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,ZIKV (strain H/PPF/2013 isolated in French Polynesia. GenBank: KJ776791).,TRUE,01/01/2009
NA,NA,transmission rate,percentage of ZIKV RT-PCR positive saliva expectorate samples divided by the number of positive leg samples,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,completion of the third gonotrophic cycle,21,days,NA,NA,NA,NA,NA,Baix Llobregat Barcelona Spain,colony,01/01/2009,2,decimal,41.430556,1.966667,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,NA,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hernandez-Triana et al. 2009. Evidence for infection but not transmission of Zika virus by Aedes albopictus (Diptera: Culicidae) from Spain. Parasites Vectors 12: 204,10.1186/s13071-019-3467-y,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,ZIKV (strain H/PPF/2013 isolated in French Polynesia. GenBank: KJ776791).,TRUE,01/01/2009
NA,NA,transmission rate,percentage of ZIKV RT-PCR positive saliva expectorate samples divided by the number of positive leg samples,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,completion of the first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,Baix Llobregat Barcelona Spain,colony,01/01/2009,2,decimal,41.430556,1.966667,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,NA,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hernandez-Triana et al. 2009. Evidence for infection but not transmission of Zika virus by Aedes albopictus (Diptera: Culicidae) from Spain. Parasites Vectors 12: 204,10.1186/s13071-019-3467-y,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,ZIKV (strain H/PPF/2013 isolated in French Polynesia. GenBank: KJ776791). interactor1number is the number of positive individuals out of 4 tested,TRUE,01/01/2009
NA,NA,transmission rate,percentage of ZIKV RT-PCR positive saliva expectorate samples divided by the number of positive leg samples,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,completion of the second gonotrophic cycle,14,days,NA,NA,NA,NA,NA,Baix Llobregat Barcelona Spain,colony,01/01/2009,2,decimal,41.430556,1.966667,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,NA,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hernandez-Triana et al. 2009. Evidence for infection but not transmission of Zika virus by Aedes albopictus (Diptera: Culicidae) from Spain. Parasites Vectors 12: 204,10.1186/s13071-019-3467-y,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,ZIKV (strain H/PPF/2013 isolated in French Polynesia. GenBank: KJ776791).,TRUE,01/01/2009
NA,NA,transmission rate,percentage of ZIKV RT-PCR positive saliva expectorate samples divided by the number of positive leg samples,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,completion of the third gonotrophic cycle,21,days,NA,NA,NA,NA,NA,Baix Llobregat Barcelona Spain,colony,01/01/2009,2,decimal,41.430556,1.966667,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,NA,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hernandez-Triana et al. 2009. Evidence for infection but not transmission of Zika virus by Aedes albopictus (Diptera: Culicidae) from Spain. Parasites Vectors 12: 204,10.1186/s13071-019-3467-y,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,ZIKV (strain H/PPF/2013 isolated in French Polynesia. GenBank: KJ776791).,TRUE,01/01/2009
NA,NA,infection rate,percentage of ZIKV RT-PCR positive mosquito bodies (abdomen/thorax) divided by the total number of blood-fed individuals,44,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,completion of the first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,Cuba,colony,NA,0,decimal,22,-80,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hernandez-Triana et al. 2009. Evidence for infection but not transmission of Zika virus by Aedes albopictus (Diptera: Culicidae) from Spain. Parasites Vectors 12: 204,10.1186/s13071-019-3467-y,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,ZIKV (strain H/PPF/2013 isolated in French Polynesia. GenBank: KJ776791). interactor1number is the number of positive individuals out of 25 tested,TRUE,01/01/2009
NA,NA,infection rate,percentage of ZIKV RT-PCR positive mosquito bodies (abdomen/thorax) divided by the total number of blood-fed individuals,40,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,completion of the second gonotrophic cycle,14,days,NA,NA,NA,NA,NA,Cuba,colony,NA,0,decimal,22,-80,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hernandez-Triana et al. 2009. Evidence for infection but not transmission of Zika virus by Aedes albopictus (Diptera: Culicidae) from Spain. Parasites Vectors 12: 204,10.1186/s13071-019-3467-y,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,ZIKV (strain H/PPF/2013 isolated in French Polynesia. GenBank: KJ776791). interactor1number is the number of positive individuals out of 30 tested,TRUE,01/01/2009
NA,NA,infection rate,percentage of ZIKV RT-PCR positive mosquito bodies (abdomen/thorax) divided by the total number of blood-fed individuals,15.3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,completion of the third gonotrophic cycle,21,days,NA,NA,NA,NA,NA,Cuba,colony,NA,0,decimal,22,-80,Aedes aegypti,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hernandez-Triana et al. 2009. Evidence for infection but not transmission of Zika virus by Aedes albopictus (Diptera: Culicidae) from Spain. Parasites Vectors 12: 204,10.1186/s13071-019-3467-y,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,ZIKV (strain H/PPF/2013 isolated in French Polynesia. GenBank: KJ776791). interactor1number is the number of positive individuals out of 26 tested,TRUE,01/01/2009
NA,NA,infection rate,percentage of ZIKV RT-PCR positive mosquito bodies (abdomen/thorax) divided by the total number of blood-fed individuals,55,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,completion of the first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,Cuba,colony,NA,0,decimal,22,-80,Aedes aegypti,NA,NA,NA,22,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hernandez-Triana et al. 2009. Evidence for infection but not transmission of Zika virus by Aedes albopictus (Diptera: Culicidae) from Spain. Parasites Vectors 12: 204,10.1186/s13071-019-3467-y,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,ZIKV (strain H/PPF/2013 isolated in French Polynesia. GenBank: KJ776791). interactor1number is the number of positive individuals out of 22 tested,TRUE,01/01/2009
NA,NA,infection rate,percentage of ZIKV RT-PCR positive mosquito bodies (abdomen/thorax) divided by the total number of blood-fed individuals,65.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,completion of the second gonotrophic cycle,14,days,NA,NA,NA,NA,NA,Cuba,colony,NA,0,decimal,22,-80,Aedes aegypti,NA,NA,NA,23,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hernandez-Triana et al. 2009. Evidence for infection but not transmission of Zika virus by Aedes albopictus (Diptera: Culicidae) from Spain. Parasites Vectors 12: 204,10.1186/s13071-019-3467-y,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,ZIKV (strain H/PPF/2013 isolated in French Polynesia. GenBank: KJ776791). interactor1number is the number of positive individuals out of 23 tested,TRUE,01/01/2009
NA,NA,infection rate,percentage of ZIKV RT-PCR positive mosquito bodies (abdomen/thorax) divided by the total number of blood-fed individuals,67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,completion of the third gonotrophic cycle,21,days,NA,NA,NA,NA,NA,Cuba,colony,NA,0,decimal,22,-80,Aedes aegypti,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hernandez-Triana et al. 2009. Evidence for infection but not transmission of Zika virus by Aedes albopictus (Diptera: Culicidae) from Spain. Parasites Vectors 12: 204,10.1186/s13071-019-3467-y,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,ZIKV (strain H/PPF/2013 isolated in French Polynesia. GenBank: KJ776791). interactor1number is the number of positive individuals out of 18 tested,TRUE,01/01/2009
NA,NA,dissemination rate,percentage ZIKV RT-PCR positive legs divided by the number of positive bodies,63,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,completion of the first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,Cuba,colony,NA,0,decimal,22,-80,Aedes aegypti,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hernandez-Triana et al. 2009. Evidence for infection but not transmission of Zika virus by Aedes albopictus (Diptera: Culicidae) from Spain. Parasites Vectors 12: 204,10.1186/s13071-019-3467-y,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,ZIKV (strain H/PPF/2013 isolated in French Polynesia. GenBank: KJ776791). interactor1number is the number of positive individuals out of 11 tested,TRUE,01/01/2009
NA,NA,dissemination rate,percentage ZIKV RT-PCR positive legs divided by the number of positive bodies,58,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,completion of the second gonotrophic cycle,14,days,NA,NA,NA,NA,NA,Cuba,colony,NA,0,decimal,22,-80,Aedes aegypti,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hernandez-Triana et al. 2009. Evidence for infection but not transmission of Zika virus by Aedes albopictus (Diptera: Culicidae) from Spain. Parasites Vectors 12: 204,10.1186/s13071-019-3467-y,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,ZIKV (strain H/PPF/2013 isolated in French Polynesia. GenBank: KJ776791). interactor1number is the number of positive individuals out of 12 tested,TRUE,01/01/2009
NA,NA,dissemination rate,percentage ZIKV RT-PCR positive legs divided by the number of positive bodies,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,completion of the third gonotrophic cycle,21,days,NA,NA,NA,NA,NA,Cuba,colony,NA,0,decimal,22,-80,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hernandez-Triana et al. 2009. Evidence for infection but not transmission of Zika virus by Aedes albopictus (Diptera: Culicidae) from Spain. Parasites Vectors 12: 204,10.1186/s13071-019-3467-y,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,ZIKV (strain H/PPF/2013 isolated in French Polynesia. GenBank: KJ776791). interactor1number is the number of positive individuals out of 4 tested,TRUE,01/01/2009
NA,NA,dissemination rate,percentage ZIKV RT-PCR positive legs divided by the number of positive bodies,41,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,completion of the first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,Cuba,colony,NA,0,decimal,22,-80,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hernandez-Triana et al. 2009. Evidence for infection but not transmission of Zika virus by Aedes albopictus (Diptera: Culicidae) from Spain. Parasites Vectors 12: 204,10.1186/s13071-019-3467-y,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,ZIKV (strain H/PPF/2013 isolated in French Polynesia. GenBank: KJ776791). interactor1number is the number of positive individuals out of 12 tested,TRUE,01/01/2009
NA,NA,dissemination rate,percentage ZIKV RT-PCR positive legs divided by the number of positive bodies,80,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,completion of the second gonotrophic cycle,14,days,NA,NA,NA,NA,NA,Cuba,colony,NA,0,decimal,22,-80,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hernandez-Triana et al. 2009. Evidence for infection but not transmission of Zika virus by Aedes albopictus (Diptera: Culicidae) from Spain. Parasites Vectors 12: 204,10.1186/s13071-019-3467-y,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,ZIKV (strain H/PPF/2013 isolated in French Polynesia. GenBank: KJ776791). interactor1number is the number of positive individuals out of 15 tested,TRUE,01/01/2009
NA,NA,dissemination rate,percentage ZIKV RT-PCR positive legs divided by the number of positive bodies,75,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,completion of the third gonotrophic cycle,21,days,NA,NA,NA,NA,NA,Cuba,colony,NA,0,decimal,22,-80,Aedes aegypti,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hernandez-Triana et al. 2009. Evidence for infection but not transmission of Zika virus by Aedes albopictus (Diptera: Culicidae) from Spain. Parasites Vectors 12: 204,10.1186/s13071-019-3467-y,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,ZIKV (strain H/PPF/2013 isolated in French Polynesia. GenBank: KJ776791). interactor1number is the number of positive individuals out of 12 tested,TRUE,01/01/2009
NA,NA,transmission rate,percentage of ZIKV RT-PCR positive saliva expectorate samples divided by the number of positive leg samples,71,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,completion of the first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,Cuba,colony,NA,0,decimal,22,-80,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hernandez-Triana et al. 2009. Evidence for infection but not transmission of Zika virus by Aedes albopictus (Diptera: Culicidae) from Spain. Parasites Vectors 12: 204,10.1186/s13071-019-3467-y,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,ZIKV (strain H/PPF/2013 isolated in French Polynesia. GenBank: KJ776791). interactor1number is the number of positive individuals out of 7 tested,TRUE,01/01/2009
NA,NA,transmission rate,percentage of ZIKV RT-PCR positive saliva expectorate samples divided by the number of positive leg samples,42,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,completion of the second gonotrophic cycle,14,days,NA,NA,NA,NA,NA,Cuba,colony,NA,0,decimal,22,-80,Aedes aegypti,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hernandez-Triana et al. 2009. Evidence for infection but not transmission of Zika virus by Aedes albopictus (Diptera: Culicidae) from Spain. Parasites Vectors 12: 204,10.1186/s13071-019-3467-y,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,ZIKV (strain H/PPF/2013 isolated in French Polynesia. GenBank: KJ776791). interactor1number is the number of positive individuals out of 7 tested,TRUE,01/01/2009
NA,NA,transmission rate,percentage of ZIKV RT-PCR positive saliva expectorate samples divided by the number of positive leg samples,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,completion of the third gonotrophic cycle,21,days,NA,NA,NA,NA,NA,Cuba,colony,NA,0,decimal,22,-80,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hernandez-Triana et al. 2009. Evidence for infection but not transmission of Zika virus by Aedes albopictus (Diptera: Culicidae) from Spain. Parasites Vectors 12: 204,10.1186/s13071-019-3467-y,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,ZIKV (strain H/PPF/2013 isolated in French Polynesia. GenBank: KJ776791).,TRUE,01/01/2009
NA,NA,transmission rate,percentage of ZIKV RT-PCR positive saliva expectorate samples divided by the number of positive leg samples,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,completion of the first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,Cuba,colony,NA,0,decimal,22,-80,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hernandez-Triana et al. 2009. Evidence for infection but not transmission of Zika virus by Aedes albopictus (Diptera: Culicidae) from Spain. Parasites Vectors 12: 204,10.1186/s13071-019-3467-y,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,ZIKV (strain H/PPF/2013 isolated in French Polynesia. GenBank: KJ776791). interactor1number is the number of positive individuals out of 5 tested,TRUE,01/01/2009
NA,NA,transmission rate,percentage of ZIKV RT-PCR positive saliva expectorate samples divided by the number of positive leg samples,41,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,completion of the second gonotrophic cycle,14,days,NA,NA,NA,NA,NA,Cuba,colony,NA,0,decimal,22,-80,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hernandez-Triana et al. 2009. Evidence for infection but not transmission of Zika virus by Aedes albopictus (Diptera: Culicidae) from Spain. Parasites Vectors 12: 204,10.1186/s13071-019-3467-y,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,ZIKV (strain H/PPF/2013 isolated in French Polynesia. GenBank: KJ776791). interactor1number is the number of positive individuals out of 12 tested,TRUE,01/01/2009
NA,NA,transmission rate,percentage of ZIKV RT-PCR positive saliva expectorate samples divided by the number of positive leg samples,55,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,completion of the third gonotrophic cycle,21,days,NA,NA,NA,NA,NA,Cuba,colony,NA,0,decimal,22,-80,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,NA,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hernandez-Triana et al. 2009. Evidence for infection but not transmission of Zika virus by Aedes albopictus (Diptera: Culicidae) from Spain. Parasites Vectors 12: 204,10.1186/s13071-019-3467-y,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,ZIKV (strain H/PPF/2013 isolated in French Polynesia. GenBank: KJ776791). interactor1number is the number of positive individuals out of 9 tested,TRUE,01/01/2009
NA,NA,survival,percent surviving life stage,77.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,San Marcos Texas,colony,01/06/1970,4,decimal,29.879444,-97.938889,Aedes aegypti,Yellow fever mosquito,NA,NA,868,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,15.6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Hoffman 1971. Field and laboratory studies on the effects of temperature on certain aspects of reproduction in Aedes aegypti (L.) from central Texas. Ph.D. dissertation. University of California Davis CA,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=1114). mosquitoes were transferred from 15.6 degrees Celsius to 25.6 degrees Celsius for oviposition.,TRUE,01/01/1971
NA,NA,survival,percent surviving life stage,88.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,San Marcos Texas,colony,01/06/1970,4,decimal,29.879444,-97.938889,Aedes aegypti,Yellow fever mosquito,NA,NA,796,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,21.1,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Hoffman 1971. Field and laboratory studies on the effects of temperature on certain aspects of reproduction in Aedes aegypti (L.) from central Texas. Ph.D. dissertation. University of California Davis CA,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=902),TRUE,01/01/1971
NA,NA,survival,percent surviving life stage,91.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,San Marcos Texas,colony,01/06/1970,4,decimal,29.879444,-97.938889,Aedes aegypti,Yellow fever mosquito,NA,NA,752,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,26.7,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Hoffman 1971. Field and laboratory studies on the effects of temperature on certain aspects of reproduction in Aedes aegypti (L.) from central Texas. Ph.D. dissertation. University of California Davis CA,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=822),TRUE,01/01/1971
NA,NA,survival,percent surviving life stage,89.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,San Marcos Texas,colony,01/06/1970,4,decimal,29.879444,-97.938889,Aedes aegypti,Yellow fever mosquito,NA,NA,722,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,32.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Hoffman 1971. Field and laboratory studies on the effects of temperature on certain aspects of reproduction in Aedes aegypti (L.) from central Texas. Ph.D. dissertation. University of California Davis CA,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=806),TRUE,01/01/1971
NA,NA,survival,percent surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,San Marcos Texas,colony,01/06/1970,4,decimal,29.879444,-97.938889,Aedes aegypti,Yellow fever mosquito,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,37.8,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Hoffman 1971. Field and laboratory studies on the effects of temperature on certain aspects of reproduction in Aedes aegypti (L.) from central Texas. Ph.D. dissertation. University of California Davis CA,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=350),TRUE,01/01/1971
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),8.833,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,156,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),8.489,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,186,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),8.459,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,185,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),8.753,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,190,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),8.223,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,184,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),8.372,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,183,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),8.558,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,172,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),8.462,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,169,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),8.877,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,179,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),9.099,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,182,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),8.868,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,182,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),9.222,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,176,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),9.03,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,167,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),9.044,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,182,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),8.971,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,171,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),8.994,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),9.184,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,136,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),9.379,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,177,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),9.115,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,148,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),9.078,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,179,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),9.07,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,187,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),9.202,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,173,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),8.923,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,179,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),9.332,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,193,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),8.977,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,172,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),8.938,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,160,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),7.932,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,117,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),8.017,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,176,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),7.327,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,165,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),7.37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,162,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),7.64,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,145,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),7.733,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,172,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),7.674,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,181,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),7.603,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,189,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),7.594,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),7.451,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,164,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),7.642,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,148,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),7.81,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,153,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),7.809,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,183,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),7.785,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,163,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),7.595,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,173,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),7.391,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,174,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),7.815,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,135,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),7.958,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,118,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),7.262,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,149,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),9.321,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,106,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),8.994,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,164,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),9.337,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,92,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),9.087,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,126,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),9.935,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,31,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),11.356,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,118,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),9.058,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,156,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),9.17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,141,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),8.986,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,146,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),9.061,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,148,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),9.277,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,94,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),7.551,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,89,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),9.395,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,147,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),8.764,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,144,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),9.156,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,135,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),9.595,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,111,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),9.786,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,42,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),7.813,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,32,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),8.214,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),8.25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,32,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),7.492,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,59,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),7.593,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,54,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),7.75,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),8.125,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,64,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),7.744,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,78,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),7.788,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,85,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),8.25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,52,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),7.667,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),7.854,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),7.871,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,31,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),8.053,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),7.786,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),7.745,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),7.567,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,90,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,development time,replicate-level mean duration of life stage as a function of temperature and selection pressure (see secondstressordef),8.159,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,69,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,DIC002,development time,mean duration of life stage,0,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Galveston Texas USA,field,NA,0,decimal,29.281111,-94.825833,Aedes albopictus,NA,NA,NA,250,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,14,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,tables 12 and 13,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,trait value was set to zero because complete juvenile mortality occured at this temperature. interactor1number is the number of individuals that did not survive life stage from the initial number of individuals at the start of the experiment (n=250),FALSE,01/01/2007
NA,DIC002,development time,mean duration of life stage,467.2,hours,7,7,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Galveston Texas USA,field,NA,0,decimal,29.281111,-94.825833,Aedes albopictus,NA,NA,NA,250,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,17,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,tables 12 and 13,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC002,development time,mean duration of life stage,394.4,hours,10.3,10.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Galveston Texas USA,field,NA,0,decimal,29.281111,-94.825833,Aedes albopictus,NA,NA,NA,250,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,21,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,tables 12 and 13,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC002,development time,mean duration of life stage,195.2,hours,5.4,5.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Galveston Texas USA,field,NA,0,decimal,29.281111,-94.825833,Aedes albopictus,NA,NA,NA,250,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,tables 12 and 13,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC002,development time,mean duration of life stage,188.6,hours,9.4,9.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Galveston Texas USA,field,NA,0,decimal,29.281111,-94.825833,Aedes albopictus,NA,NA,NA,250,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,tables 12 and 13,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC002,development time,mean duration of life stage,179,hours,5.6,5.6,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Galveston Texas USA,field,NA,0,decimal,29.281111,-94.825833,Aedes albopictus,NA,NA,NA,250,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,33,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,tables 12 and 13,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC002,development time,mean duration of life stage,256.6,hours,5.4,5.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Galveston Texas USA,field,NA,0,decimal,29.281111,-94.825833,Aedes albopictus,NA,NA,NA,250,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,36,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,tables 12 and 13,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC002,development time,mean duration of life stage,0,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rio Grande Valley Texas USA,field,NA,0,decimal,26.22,-98.12,Aedes albopictus,NA,NA,NA,250,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,14,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,tables 12 and 13,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,trait value was set to zero because complete juvenile mortality occured at this temperature. interactor1number is the number of individuals that did not survive life stage from the initial number of individuals at the start of the experiment (n=250),FALSE,01/01/2007
NA,DIC002,development time,mean duration of life stage,527.6,hours,7,7,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rio Grande Valley Texas USA,field,NA,0,decimal,26.22,-98.12,Aedes albopictus,NA,NA,NA,250,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,17,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,tables 12 and 13,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC002,development time,mean duration of life stage,268.4,hours,10.3,10.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rio Grande Valley Texas USA,field,NA,0,decimal,26.22,-98.12,Aedes albopictus,NA,NA,NA,250,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,21,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,tables 12 and 13,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC002,development time,mean duration of life stage,196.3,hours,3.8,3.8,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rio Grande Valley Texas USA,field,NA,0,decimal,26.22,-98.12,Aedes albopictus,NA,NA,NA,500,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,tables 12 and 13,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC002,development time,mean duration of life stage,159.4,hours,9.4,9.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rio Grande Valley Texas USA,field,NA,0,decimal,26.22,-98.12,Aedes albopictus,NA,NA,NA,250,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,tables 12 and 13,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC002,development time,mean duration of life stage,166.55,hours,5.6,5.6,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rio Grande Valley Texas USA,field,NA,0,decimal,26.22,-98.12,Aedes albopictus,NA,NA,NA,250,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,33,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,tables 12 and 13,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC002,development time,mean duration of life stage,0,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rio Grande Valley Texas USA,field,NA,0,decimal,26.22,-98.12,Aedes albopictus,NA,NA,NA,250,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,36,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,tables 12 and 13,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,trait value was set to zero because complete juvenile mortality occured at this temperature. interactor1number is the number of individuals that did not survive life stage from the initial number of individuals at the start of the experiment (n=250),FALSE,01/01/2007
NA,DIC002,development time,mean duration of life stage,1057.2,hours,28.1,28.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Texas A&M University USA,colony,NA,0,decimal,30.610278,-96.343611,Aedes albopictus,NA,NA,NA,250,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,14,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,tables 12 and 13,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC002,development time,mean duration of life stage,521.4,hours,7,7,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Texas A&M University USA,colony,NA,0,decimal,30.610278,-96.343611,Aedes albopictus,NA,NA,NA,250,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,17,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,tables 12 and 13,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC002,development time,mean duration of life stage,275.1,hours,7.3,7.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Texas A&M University USA,colony,NA,0,decimal,30.610278,-96.343611,Aedes albopictus,NA,NA,NA,500,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,21,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,tables 12 and 13,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC002,development time,mean duration of life stage,146.4,hours,5.4,5.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Texas A&M University USA,colony,NA,0,decimal,30.610278,-96.343611,Aedes albopictus,NA,NA,NA,250,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,tables 12 and 13,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC002,development time,mean duration of life stage,221.4,hours,9.4,9.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Texas A&M University USA,colony,NA,0,decimal,30.610278,-96.343611,Aedes albopictus,NA,NA,NA,250,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,tables 12 and 13,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC002,development time,mean duration of life stage,197.2,hours,6.3,6.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Texas A&M University USA,colony,NA,0,decimal,30.610278,-96.343611,Aedes albopictus,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,33,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,tables 12 and 13,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC002,development time,mean duration of life stage,0,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Texas A&M University USA,colony,NA,0,decimal,30.610278,-96.343611,Aedes albopictus,NA,NA,NA,250,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,36,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,tables 12 and 13,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,trait value was set to zero because complete juvenile mortality occured at this temperature. interactor1number is the number of individuals that did not survive life stage from the initial number of individuals at the start of the experiment (n=250),FALSE,01/01/2007
NA,DIC003,development time,mean duration of life stage,0,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Galveston Texas USA,field,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,NA,NA,NA,250,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,14,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,tables 12 and 13,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,trait value was set to zero because complete juvenile mortality occured at this temperature. interactor1number is the number of individuals that did not survive life stage from the initial number of individuals at the start of the experiment (n=250),FALSE,01/01/2007
NA,DIC003,development time,mean duration of life stage,487,hours,4.3,4.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Galveston Texas USA,field,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,NA,NA,NA,250,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,17,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,tables 12 and 13,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC003,development time,mean duration of life stage,301,hours,3,3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Galveston Texas USA,field,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,NA,NA,NA,250,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,21,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,tables 12 and 13,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC003,development time,mean duration of life stage,149.5,hours,2.4,2.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Galveston Texas USA,field,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,NA,NA,NA,500,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,tables 12 and 13,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC003,development time,mean duration of life stage,164.8,hours,5.3,5.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Galveston Texas USA,field,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,NA,NA,NA,250,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,tables 12 and 13,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC003,development time,mean duration of life stage,148.5,hours,7.7,7.7,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Galveston Texas USA,field,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,NA,NA,NA,250,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,33,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,tables 12 and 13,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC003,development time,mean duration of life stage,153.4,hours,13.7,13.7,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Galveston Texas USA,field,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,NA,NA,NA,250,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,36,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,tables 12 and 13,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC003,development time,mean duration of life stage,0,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rio Grande Valley Texas USA,field,NA,0,decimal,26.22,-98.12,Aedes aegypti,NA,NA,NA,250,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,14,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,tables 12 and 13,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,trait value was set to zero because complete juvenile mortality occured at this temperature. interactor1number is the number of individuals that did not survive life stage from the initial number of individuals at the start of the experiment (n=250),FALSE,01/01/2007
NA,DIC003,development time,mean duration of life stage,452.6,hours,4.3,4.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rio Grande Valley Texas USA,field,NA,0,decimal,26.22,-98.12,Aedes aegypti,NA,NA,NA,250,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,17,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,tables 12 and 13,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC003,development time,mean duration of life stage,281.8,hours,3,3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rio Grande Valley Texas USA,field,NA,0,decimal,26.22,-98.12,Aedes aegypti,NA,NA,NA,250,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,21,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,tables 12 and 13,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC003,development time,mean duration of life stage,170.8,hours,3.1,3.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rio Grande Valley Texas USA,field,NA,0,decimal,26.22,-98.12,Aedes aegypti,NA,NA,NA,250,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,tables 12 and 13,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC003,development time,mean duration of life stage,120.4,hours,5.3,5.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rio Grande Valley Texas USA,field,NA,0,decimal,26.22,-98.12,Aedes aegypti,NA,NA,NA,250,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,tables 12 and 13,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC003,development time,mean duration of life stage,131.8,hours,7.7,7.7,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rio Grande Valley Texas USA,field,NA,0,decimal,26.22,-98.12,Aedes aegypti,NA,NA,NA,250,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,33,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,tables 12 and 13,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC003,development time,mean duration of life stage,220,hours,13.7,13.7,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rio Grande Valley Texas USA,field,NA,0,decimal,26.22,-98.12,Aedes aegypti,NA,NA,NA,250,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,36,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,tables 12 and 13,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC003,development time,mean duration of life stage,983.6,hours,14.6,14.6,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,University of Texas Medical Branch (UTMB),colony,NA,0,decimal,30.610278,-96.343611,Aedes aegypti,NA,NA,NA,250,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,14,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,tables 12 and 13,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC003,development time,mean duration of life stage,503.6,hours,4.3,4.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,University of Texas Medical Branch (UTMB),colony,NA,0,decimal,30.610278,-96.343611,Aedes aegypti,NA,NA,NA,250,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,17,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,tables 12 and 13,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC003,development time,mean duration of life stage,238,hours,2.1,2.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,University of Texas Medical Branch (UTMB),colony,NA,0,decimal,30.610278,-96.343611,Aedes aegypti,NA,NA,NA,500,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,21,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,tables 12 and 13,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC003,development time,mean duration of life stage,144.2,hours,3.4,3.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,University of Texas Medical Branch (UTMB),colony,NA,0,decimal,30.610278,-96.343611,Aedes aegypti,NA,NA,NA,250,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,tables 12 and 13,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC003,development time,mean duration of life stage,148.2,hours,5.3,5.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,University of Texas Medical Branch (UTMB),colony,NA,0,decimal,30.610278,-96.343611,Aedes aegypti,NA,NA,NA,250,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,tables 12 and 13,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC003,development time,mean duration of life stage,152.4,hours,7.7,7.7,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,University of Texas Medical Branch (UTMB),colony,NA,0,decimal,30.610278,-96.343611,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,33,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,tables 12 and 13,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
NA,DIC003,development time,mean duration of life stage,217.5,hours,21.7,21.7,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,University of Texas Medical Branch (UTMB),colony,NA,0,decimal,30.610278,-96.343611,Aedes aegypti,NA,NA,NA,250,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,36,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,tables 12 and 13,Dickerson 2007. The effects of temperature and humidity on the eggs of Aedes aegypti (L.) and Aedes albopictus (Skuse) in Texas. Texas A&M University Thesis,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/2007
YEE1,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.6598,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE2,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),15.3333,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.5549,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE3,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.5949,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE4,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),16.625,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.4764,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE5,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.4751,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE6,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.4659,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE7,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),14.6667,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.6238,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE8,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),17.2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.4111,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE9,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),14.8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.6243,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE10,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),17.6364,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.4536,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE11,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),15.9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.4671,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE12,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),16.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.543,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE13,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),15.1429,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.5543,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE14,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),16.3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.3971,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE15,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),15.875,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.4452,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE16,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.4145,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE17,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),15.9167,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.4356,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE18,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),17.2308,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.3865,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE19,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),15.6667,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.5,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE20,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),19.2632,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.2703,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE21,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),17.4375,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.3333,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE22,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),17.55,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.3096,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE23,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),19.0625,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.2411,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE24,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),19.375,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.2782,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE25,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),16.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.3333,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE26,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),18.7778,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.2847,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE27,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),18.9048,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.2363,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE28,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),20.0455,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.3315,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE29,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),17.1818,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.3532,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE30,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),8.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.5761,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE31,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.5888,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE32,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),8.1429,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.4675,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE33,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),8.8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.579,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE34,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),8.25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.6139,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
PHX331,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX332,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX333,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX334,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX335,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX336,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX337,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX338,NA,longevity,individual-level duration of life stage,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX339,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX340,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX341,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX342,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX343,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX344,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX345,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX346,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX347,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX348,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX349,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX350,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX351,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX352,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX353,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX354,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX355,NA,longevity,individual-level duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX356,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX357,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX358,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX359,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX360,NA,longevity,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX361,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX362,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX363,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX364,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX365,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX366,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX367,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX368,NA,longevity,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,wing length was not measured for this individual: zero assigned,TRUE,01/01/2021
PHX369,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX370,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX371,NA,longevity,individual-level duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX372,NA,longevity,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,wing length was not measured for this individual: zero assigned,TRUE,01/01/2021
PHX373,NA,longevity,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX374,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX375,NA,longevity,individual-level duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX376,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX377,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX378,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX379,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX380,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX381,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX382,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX383,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX384,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX385,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX386,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX387,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX388,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX389,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX390,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,wing length was not measured for this individual: zero assigned,TRUE,01/01/2021
PHX391,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX392,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX393,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX394,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX395,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX396,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX397,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX398,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX399,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX400,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX401,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX402,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX403,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX404,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX405,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX406,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX407,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX408,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX409,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX410,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX411,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX412,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX413,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX414,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX415,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX416,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX417,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX418,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX419,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX420,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX421,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX422,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX423,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX424,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX425,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX426,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX427,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX428,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX429,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX430,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX431,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX432,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX433,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,wing length was not measured for this individual: zero assigned,TRUE,01/01/2021
PHX434,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX435,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX436,NA,longevity,individual-level duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX437,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX438,NA,longevity,individual-level duration of life stage,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX439,NA,longevity,individual-level duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX440,NA,longevity,individual-level duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX441,NA,longevity,individual-level duration of life stage,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX442,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX443,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX444,NA,longevity,individual-level duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX445,NA,longevity,individual-level duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX446,NA,longevity,individual-level duration of life stage,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX447,NA,longevity,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX448,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX449,NA,longevity,individual-level duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX450,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX451,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX452,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX453,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX454,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX455,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX456,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX457,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX458,NA,longevity,individual-level duration of life stage,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX459,NA,longevity,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX460,NA,longevity,individual-level duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX461,NA,longevity,individual-level duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX462,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX463,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX464,NA,longevity,individual-level duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX465,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX466,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,wing length was not measured for this individual: zero assigned,TRUE,01/01/2021
PHX467,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX468,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX469,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX470,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX471,NA,longevity,individual-level duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX472,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,wing length was not measured for this individual: zero assigned,TRUE,01/01/2021
PHX473,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,wing length was not measured for this individual: zero assigned,TRUE,01/01/2021
PHX474,NA,longevity,individual-level duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX475,NA,longevity,individual-level duration of life stage,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX476,NA,longevity,individual-level duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX477,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX478,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX479,NA,longevity,individual-level duration of life stage,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX480,NA,longevity,individual-level duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX481,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX482,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX483,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX484,NA,longevity,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX485,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX486,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult (starved),female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX331,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX332,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX333,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX334,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX335,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX336,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX337,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX338,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX339,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX340,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX341,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX342,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX343,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX344,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX345,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX346,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX347,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX348,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX349,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX350,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX351,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX352,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX353,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX354,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX355,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX356,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX357,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX358,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX359,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX360,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX361,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX362,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX363,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX364,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX365,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX366,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX367,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX368,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX369,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX370,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX371,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX372,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX373,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX374,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX375,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX376,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX377,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX378,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX379,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX380,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX381,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX382,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX383,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX384,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX385,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX386,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX387,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX388,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX389,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX390,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX391,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX392,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX393,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX394,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX395,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX396,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX397,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX398,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX399,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX400,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX401,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX402,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX403,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX404,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX405,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX406,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX407,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX408,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX409,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX410,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX411,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX412,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX413,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX414,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX415,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX416,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX417,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX418,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX419,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX420,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX421,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX422,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX423,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX424,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX425,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX426,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX427,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX428,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX429,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX430,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX431,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX432,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX433,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX434,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX435,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX436,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX437,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX438,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX439,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX440,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX441,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX442,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX443,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX444,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX445,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX446,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX447,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX448,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX449,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX450,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX451,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX452,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX453,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX454,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX455,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX456,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX457,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX458,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX459,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX460,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX461,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX462,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX463,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX464,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX465,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX466,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX467,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX468,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX469,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX470,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX471,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX472,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX473,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX474,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX475,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX476,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX477,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX478,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX479,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX480,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX481,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX482,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX483,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX484,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX485,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX486,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX487,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX488,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX489,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX490,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX491,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX492,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX493,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX494,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX495,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX496,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX497,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX498,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX499,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX500,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX501,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX502,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX503,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX504,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX505,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX506,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX507,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX508,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX509,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX510,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX511,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX512,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX513,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX514,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX515,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX516,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX517,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX518,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX519,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX520,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX521,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX522,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX523,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX524,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX525,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX526,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX527,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX528,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX529,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX530,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX531,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX532,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX533,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX534,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX535,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX536,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX537,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX538,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX539,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX540,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX541,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX542,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX543,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX544,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX545,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX546,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX547,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX548,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX549,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX550,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX551,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX552,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX553,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX554,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX555,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX556,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX557,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX558,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX559,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX560,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX561,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX562,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX563,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX564,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX565,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX566,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX567,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX568,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX569,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX570,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX571,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX572,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX573,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX574,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX575,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX576,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX577,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX578,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX579,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX580,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX581,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX582,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX583,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX584,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX585,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX586,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX587,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX588,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX589,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX590,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX591,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX592,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX593,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX594,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX595,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX596,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX597,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX598,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX599,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX600,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX331,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX332,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX333,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX334,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX335,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX336,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX337,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX338,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX339,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX340,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX341,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX342,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX343,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX344,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX345,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX346,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX347,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX348,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX349,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX350,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX351,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX352,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX353,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX354,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX355,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX356,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX357,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX358,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX359,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX360,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX361,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX362,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX363,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX364,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX365,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX366,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX367,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX368,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX369,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX370,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX371,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX372,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX373,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX374,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX375,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX376,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX377,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX378,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX379,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX380,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX381,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX382,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX383,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX384,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX385,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX386,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX387,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX388,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX389,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX390,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX391,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX392,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX393,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX394,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX395,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX396,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX397,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX398,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX399,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX400,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX401,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX402,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX403,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX404,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX405,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX406,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX407,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX408,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX409,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX410,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX411,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX412,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX413,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX414,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX415,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX416,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX417,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX418,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX419,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX420,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX421,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX422,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX423,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX424,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX425,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX426,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX427,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX428,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX429,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX430,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX431,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX432,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX433,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX434,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX435,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX436,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX437,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX438,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX439,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX440,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX441,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX442,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX443,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX444,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX445,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX446,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX447,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX448,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX449,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX450,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX451,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX452,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX453,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX454,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX455,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX456,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX457,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX458,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX459,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX460,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX461,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX462,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX463,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX464,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX465,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX466,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX467,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX468,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX469,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX470,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX471,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX472,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX473,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX474,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX475,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX476,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX477,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX478,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX479,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX480,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX481,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX482,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX483,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX484,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX485,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX486,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX487,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX488,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX489,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX490,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,47,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX491,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX492,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX493,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,47,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX494,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,47,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX495,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,47,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX496,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX497,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX498,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,47,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX499,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX500,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX501,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX502,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX503,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX504,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX505,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX506,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX507,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX508,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,44,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX509,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX510,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX511,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX512,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX513,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX514,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX515,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX516,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX517,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX518,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX519,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX520,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX521,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX522,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX523,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX524,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX525,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX526,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX527,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX528,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,46,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX529,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX530,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX531,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX532,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX533,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX534,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX535,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX536,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX537,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX538,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX539,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX540,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX541,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX542,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX543,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX544,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX545,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX546,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX547,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX548,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX549,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX550,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX551,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX552,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX553,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX554,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX555,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX556,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX557,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX558,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX559,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX560,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX561,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX562,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX563,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX564,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX565,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX566,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX567,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX568,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX569,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX570,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX571,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX572,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX573,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX574,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX575,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX576,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX577,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX578,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX579,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX580,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX581,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX582,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX583,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX584,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX585,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX586,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX587,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX588,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX589,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX590,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX591,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX592,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX593,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX594,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX595,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX596,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX597,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX598,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX599,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX600,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
NA,PHX384,fecundity rate,mean eggs per unit time,1.77,eggs individual-1 day-1,0.06,0.06,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are model predictions size-scaling the relationship between dry mass and fecundity,TRUE,01/01/2022
NA,PHX384,fecundity rate,mean eggs per unit time,1.95,eggs individual-1 day-1,0.05,0.05,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,32,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are model predictions size-scaling the relationship between dry mass and fecundity,TRUE,01/01/2022
NA,PHX384,fecundity rate,mean eggs per unit time,1.99,eggs individual-1 day-1,0.06,0.06,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,52,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are model predictions size-scaling the relationship between dry mass and fecundity,TRUE,01/01/2022
NA,PHX384,fecundity rate,mean eggs per unit time,2.59,eggs individual-1 day-1,0.54,0.54,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,46,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are model predictions size-scaling the relationship between dry mass and fecundity,TRUE,01/01/2022
NA,PHX384,fecundity rate,mean eggs per unit time,1.52,eggs individual-1 day-1,0.07,0.07,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are model predictions size-scaling the relationship between dry mass and fecundity,TRUE,01/01/2022
NA,PHX384,fecundity rate,mean eggs per unit time,1.96,eggs individual-1 day-1,0.08,0.08,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,31,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are model predictions size-scaling the relationship between dry mass and fecundity,TRUE,01/01/2022
NA,PHX384,fecundity rate,mean eggs per unit time,2.54,eggs individual-1 day-1,0.37,0.37,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are model predictions size-scaling the relationship between dry mass and fecundity,TRUE,01/01/2022
NA,PHX384,fecundity rate,mean eggs per unit time,3,eggs individual-1 day-1,0.3,0.3,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,21,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are model predictions size-scaling the relationship between dry mass and fecundity,TRUE,01/01/2022
NA,PHX384,fecundity rate,mean eggs per unit time,3.79,eggs individual-1 day-1,0.26,0.26,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are model predictions size-scaling the relationship between dry mass and fecundity,TRUE,01/01/2022
NA,PHX384,fecundity rate,mean eggs per unit time,3.04,eggs individual-1 day-1,0.33,0.33,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are model predictions size-scaling the relationship between dry mass and fecundity,TRUE,01/01/2022
NA,PHX384,fecundity rate,mean eggs per unit time,3.55,eggs individual-1 day-1,0.51,0.51,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,31,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are model predictions size-scaling the relationship between dry mass and fecundity,TRUE,01/01/2022
NA,PHX384,fecundity rate,mean eggs per unit time,2.64,eggs individual-1 day-1,0.22,0.22,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are model predictions size-scaling the relationship between dry mass and fecundity,TRUE,01/01/2022
NA,PHX384,fecundity rate,mean eggs per unit time,6.87,eggs individual-1 day-1,1.87,1.87,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are model predictions size-scaling the relationship between dry mass and fecundity,TRUE,01/01/2022
NA,PHX384,fecundity rate,mean eggs per unit time,5.07,eggs individual-1 day-1,0.82,0.82,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are model predictions size-scaling the relationship between dry mass and fecundity,TRUE,01/01/2022
NA,PHX384,fecundity rate,mean eggs per unit time,4.91,eggs individual-1 day-1,0.52,0.52,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are model predictions size-scaling the relationship between dry mass and fecundity,TRUE,01/01/2022
NA,PHX384,fecundity rate,mean eggs per unit time,5.76,eggs individual-1 day-1,0.89,0.89,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,23,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are model predictions size-scaling the relationship between dry mass and fecundity,TRUE,01/01/2022
NA,PHX386,mortality rate,mean per capita rate of mortality during life stage,0.05,individual-1 day-1,0.01,0.01,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,PHX386,mortality rate,mean per capita rate of mortality during life stage,0.04,individual-1 day-1,0.01,0.01,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,71,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,PHX386,mortality rate,mean per capita rate of mortality during life stage,0.02,individual-1 day-1,0,0,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,67,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,PHX386,mortality rate,mean per capita rate of mortality during life stage,0.03,individual-1 day-1,0.01,0.01,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,PHX386,mortality rate,mean per capita rate of mortality during life stage,0.06,individual-1 day-1,0.01,0.01,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,PHX386,mortality rate,mean per capita rate of mortality during life stage,0.02,individual-1 day-1,0.01,0.01,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,65,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,PHX386,mortality rate,mean per capita rate of mortality during life stage,0.04,individual-1 day-1,0.01,0.01,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,63,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,PHX386,mortality rate,mean per capita rate of mortality during life stage,0.03,individual-1 day-1,0.01,0.01,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,74,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,PHX386,mortality rate,mean per capita rate of mortality during life stage,0.09,individual-1 day-1,0.01,0.01,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,PHX386,mortality rate,mean per capita rate of mortality during life stage,0.04,individual-1 day-1,0.01,0.01,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,PHX386,mortality rate,mean per capita rate of mortality during life stage,0.05,individual-1 day-1,0.01,0.01,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,PHX386,mortality rate,mean per capita rate of mortality during life stage,0.05,individual-1 day-1,0.01,0.01,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,PHX386,mortality rate,mean per capita rate of mortality during life stage,0.14,individual-1 day-1,0.01,0.01,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,PHX386,mortality rate,mean per capita rate of mortality during life stage,0.05,individual-1 day-1,0.01,0.01,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,PHX386,mortality rate,mean per capita rate of mortality during life stage,0.09,individual-1 day-1,0.01,0.01,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,PHX386,mortality rate,mean per capita rate of mortality during life stage,0.1,individual-1 day-1,0.01,0.01,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,PHX386,mortality rate,mean per capita rate of mortality during life stage,0.18,individual-1 day-1,0.02,0.02,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,PHX386,mortality rate,mean per capita rate of mortality during life stage,0.17,individual-1 day-1,0.02,0.02,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,PHX386,mortality rate,mean per capita rate of mortality during life stage,0.18,individual-1 day-1,0.02,0.02,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,PHX386,mortality rate,mean per capita rate of mortality during life stage,0.27,individual-1 day-1,0.03,0.03,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX2,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX3,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX4,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX5,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX6,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX7,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX8,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX9,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX10,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX11,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX12,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX13,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX14,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX15,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX16,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX17,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX18,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX19,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX20,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX21,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX22,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX23,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX24,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX25,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX26,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX27,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX28,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX29,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX30,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX31,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX32,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX33,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX34,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX35,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX36,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX37,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX38,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX39,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX40,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX41,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX42,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX43,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX44,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX45,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX46,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX47,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX48,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX49,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX50,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX51,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX52,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX53,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX54,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX55,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX56,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX57,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX58,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX59,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX60,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX61,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX62,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX63,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX64,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX65,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX66,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX67,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX68,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX69,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX70,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX71,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX72,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX73,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX74,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX75,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX76,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX77,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX78,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX79,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX80,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX81,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX82,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX83,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX84,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX85,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX86,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX87,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX88,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX89,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX90,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX91,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX92,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX93,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX94,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX95,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX96,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX97,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX98,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX99,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX100,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX101,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX102,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX103,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX104,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX105,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX106,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX107,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX108,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX109,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX110,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX111,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX112,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX113,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX114,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX115,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX116,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX117,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX118,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX119,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX120,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX121,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX122,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX123,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX124,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX125,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX126,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX127,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX128,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX129,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX130,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX131,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX132,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX133,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX134,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX135,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX136,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX137,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX138,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX139,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX140,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX141,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX142,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX143,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX144,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX145,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX146,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX147,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX148,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX149,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX150,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX151,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX152,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX153,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX154,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX155,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX156,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX157,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX158,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX159,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX160,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX161,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX162,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX163,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX164,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX165,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX166,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX167,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX168,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX169,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX170,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX171,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX172,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX173,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX174,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX175,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX176,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX177,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX178,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX179,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX180,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX181,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX182,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX183,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX184,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX185,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX186,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX187,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX188,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX189,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX190,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX191,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX192,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX193,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX194,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX195,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX196,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX197,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX198,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX199,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX200,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX201,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX202,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX203,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX204,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX205,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX206,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX207,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX208,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX209,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX210,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX211,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX212,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX213,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX214,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX215,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX216,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX217,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX218,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX219,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX220,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX221,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX222,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX223,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX224,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX225,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX226,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX227,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX228,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX229,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX230,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX231,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX232,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX233,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX234,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX235,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX236,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX237,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX238,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX239,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX240,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX241,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX242,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX243,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX244,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX245,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX246,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX247,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX248,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX249,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX250,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX251,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX252,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX253,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX254,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX255,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX256,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX257,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX258,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX259,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX260,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX261,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX262,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX263,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX264,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX265,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX266,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX267,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX268,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX269,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX270,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX271,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX272,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX273,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX274,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX275,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX276,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX277,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX278,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX279,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX280,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX281,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX282,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX283,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX284,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX285,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX286,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX287,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX288,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX289,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX290,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX291,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX292,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX293,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX294,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX295,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX296,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX297,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX298,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX299,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX300,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX301,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX302,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX303,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX304,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX305,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX306,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX307,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX308,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX309,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX310,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX311,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX312,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX313,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX314,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX315,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX316,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX317,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX318,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX319,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX320,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX321,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX322,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX323,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX324,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX325,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX326,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX327,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX328,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX329,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX330,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX331,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX332,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX333,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX334,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX335,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX336,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX337,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX338,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX339,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX340,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX341,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX342,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX343,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX344,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX345,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX346,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX347,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX348,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX349,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX350,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX351,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX352,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX353,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX354,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX355,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX356,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX357,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX358,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX359,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX360,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX361,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX362,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX363,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX364,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX365,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX366,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX367,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX368,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX369,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX370,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX371,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX372,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX373,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX374,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX375,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX376,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX377,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX378,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX379,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX380,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX381,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX382,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX383,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX384,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX385,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX386,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX387,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX388,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX389,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX390,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX391,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX392,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX393,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX394,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX395,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX396,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX397,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX398,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX399,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX400,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX401,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX402,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX403,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX404,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX405,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX406,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX407,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX408,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX409,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX410,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX411,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX412,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX413,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX414,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX415,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX416,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX417,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX418,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX419,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX420,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX421,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX422,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX423,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX424,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX425,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX426,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX427,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX428,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX429,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX430,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX431,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX432,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX433,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX434,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX435,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX436,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX437,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX438,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX439,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX440,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX441,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX442,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX443,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX444,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX445,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX446,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX447,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX448,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX449,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX450,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX451,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX452,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX453,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX454,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX455,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX456,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX457,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX458,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX459,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX460,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX461,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX462,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX463,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX464,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX465,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX466,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX467,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX468,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX469,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX470,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX471,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX472,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX473,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX474,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX475,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX476,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX477,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX478,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX479,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX480,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX481,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX482,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX483,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX484,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX485,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX486,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX487,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX488,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX489,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX490,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX491,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX492,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX493,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX494,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX495,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX496,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX497,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX498,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX499,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX500,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX501,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX502,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX503,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX504,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX505,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX506,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX507,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX508,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX509,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX510,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX511,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX512,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX513,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX514,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX515,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX516,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX517,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX518,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX519,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX520,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX521,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX522,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX523,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX524,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX525,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX526,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX527,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX528,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX529,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX530,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX531,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX532,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX533,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX534,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX535,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX536,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX537,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX538,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX539,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX540,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX541,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX542,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX543,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX544,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX545,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX546,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX547,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX548,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX549,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX550,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX551,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX552,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX553,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX554,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX555,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX556,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX557,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX558,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX559,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX560,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX561,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX562,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX563,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX564,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX565,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX566,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX567,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX568,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX569,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX570,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX571,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX572,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX573,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX574,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX575,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX576,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX577,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX578,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX579,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX580,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX581,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX582,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX583,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX584,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX585,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX586,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX587,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX588,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX589,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX590,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX591,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX592,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX593,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX594,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX595,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX596,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX597,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX598,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX599,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX600,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX601,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX602,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX603,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX604,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX605,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX606,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX607,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX608,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX609,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX610,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX611,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX612,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX613,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX614,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX615,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX616,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX617,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX618,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX619,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX620,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX621,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX622,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX623,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX624,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX625,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX626,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX627,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX628,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX629,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX630,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX631,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX632,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX633,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX634,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX635,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX636,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX637,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX638,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX639,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX640,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX641,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX642,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX643,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX644,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX645,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX646,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX647,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX648,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX649,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX650,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX651,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX652,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX653,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX654,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX655,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX656,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX657,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX658,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX659,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX660,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX661,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX662,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX663,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX664,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX665,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX666,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX667,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX668,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX669,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX670,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX671,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX672,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX673,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX674,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX675,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX676,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX677,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX678,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX679,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX680,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX681,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX682,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX683,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX684,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX685,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX686,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX687,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX688,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX689,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX690,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX691,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX692,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX693,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX694,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX695,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX696,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX697,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX698,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX699,NA,survival,individual-level binomial survival,1,1 = survived life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX700,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX701,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX702,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX703,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX704,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX705,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX706,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX707,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX708,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX709,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX710,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX711,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX712,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX713,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX714,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX715,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX716,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX717,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX718,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX719,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX720,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX721,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX722,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX723,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX724,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX725,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX726,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX727,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX728,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX729,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX730,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX731,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX732,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX733,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX734,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX735,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX736,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX737,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX738,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX739,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX740,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX741,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX742,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX743,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX744,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX745,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX746,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX747,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX748,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX749,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX750,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX751,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX752,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX753,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX754,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX755,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX756,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX757,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX758,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX759,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX760,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX761,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX762,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX763,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX764,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX765,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX766,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX767,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX768,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX769,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX770,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX771,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX772,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX773,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX774,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX775,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX776,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX777,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX778,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX779,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX780,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX781,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX782,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX783,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX784,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX785,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX786,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX787,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX788,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX789,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX790,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX791,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX792,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX793,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX794,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX795,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX796,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX797,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX798,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX799,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX800,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX801,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX802,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX803,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX804,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX805,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX806,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX807,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX808,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX809,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX810,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX811,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX812,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX813,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX814,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX815,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX816,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX817,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX818,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX819,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX820,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX821,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX822,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX823,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX824,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX825,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX826,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX827,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX828,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX829,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX830,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX831,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX832,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX833,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX834,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX835,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX836,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX837,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX838,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX839,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX840,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX841,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX842,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX843,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX844,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX845,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX846,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX847,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX848,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX849,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX850,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX851,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX852,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX853,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX854,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX855,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX856,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX857,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX858,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX859,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX860,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX861,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX862,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX863,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX864,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX865,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX866,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX867,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX868,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX869,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX870,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX871,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX872,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX873,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX874,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX875,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX876,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX877,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX878,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX879,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX880,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX881,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX882,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX883,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX884,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX885,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX886,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX887,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX888,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX889,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX890,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX891,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX892,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX893,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX894,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX895,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX896,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX897,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX898,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX899,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX900,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX901,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX902,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX903,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX904,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX905,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX906,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX907,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX908,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX909,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX910,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX911,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX912,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX913,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX914,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX915,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX916,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX917,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX918,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX919,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX920,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX921,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX922,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX923,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX924,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX925,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX926,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX927,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX928,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX929,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX930,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX931,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX932,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX933,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX934,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX935,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX936,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX937,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX938,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX939,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX940,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX941,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX942,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX943,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX944,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX945,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX946,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX947,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX948,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX949,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX950,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX951,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX952,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX953,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX954,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX955,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX956,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX957,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX958,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX959,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX960,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX961,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX962,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX963,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX964,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX965,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX966,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX967,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX968,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX969,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX970,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX971,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX972,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX973,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX974,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX975,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX976,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX977,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX978,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX979,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX980,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX981,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX982,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX983,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX984,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX985,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX986,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX987,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX988,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX989,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX990,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX991,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX992,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX993,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX994,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX995,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX996,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX997,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX998,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX999,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1000,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1001,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1002,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1003,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1004,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1005,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1006,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1007,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1008,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1009,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1010,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1011,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1012,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1013,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1014,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1015,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1016,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1017,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1018,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1019,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1020,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1021,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1022,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1023,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1024,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1025,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1026,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1027,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1028,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1029,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1030,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1031,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1032,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1033,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1034,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1035,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1036,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1037,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1038,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1039,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1040,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1041,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1042,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1043,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1044,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1045,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1046,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1047,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1048,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1049,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1050,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1051,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1052,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1053,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1054,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1055,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1056,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1057,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1058,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1059,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1060,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1061,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1062,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1063,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1064,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1065,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1066,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1067,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1068,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1069,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1070,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1071,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1072,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1073,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1074,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1075,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1076,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1077,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1078,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1079,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1080,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1081,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1082,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1083,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1084,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1085,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1086,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1087,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1088,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1089,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1090,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1091,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1092,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1093,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1094,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1095,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1096,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1097,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1098,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1099,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1100,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1101,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1102,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1103,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1104,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1105,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1106,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1107,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1108,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1109,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1110,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1111,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1112,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1113,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1114,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1115,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1116,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1117,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1118,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1119,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1120,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1121,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1122,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1123,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1124,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1125,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1126,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1127,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1128,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1129,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1130,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1131,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1132,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1133,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1134,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1135,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1136,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1137,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1138,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1139,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1140,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1141,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1142,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1143,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1144,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1145,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1146,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1147,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1148,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1149,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1150,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1151,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1152,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1153,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1154,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1155,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1156,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1157,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1158,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1159,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1160,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1161,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1162,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1163,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1164,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1165,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1166,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1167,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1168,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1169,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1170,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1171,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1172,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1173,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1174,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1175,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1176,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1177,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1178,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1179,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1180,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1181,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1182,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1183,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1184,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1185,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1186,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1187,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1188,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1189,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1190,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1191,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1192,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1193,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1194,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1195,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1196,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1197,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1198,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1199,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1200,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1201,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1202,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1203,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1204,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1205,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1206,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1207,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1208,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1209,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1210,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1211,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1212,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1213,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1214,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1215,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1216,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1217,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1218,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1219,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1220,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1221,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1222,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1223,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1224,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1225,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1226,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1227,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1228,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1229,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1230,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1231,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1232,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1233,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1234,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1235,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1236,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1237,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1238,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1239,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1240,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1241,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1242,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1243,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1244,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1245,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1246,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1247,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1248,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1249,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1250,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1251,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1252,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1253,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1254,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1255,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1256,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1257,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1258,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1259,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1260,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1261,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1262,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1263,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1264,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1265,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1266,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1267,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1268,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1269,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1270,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1271,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1272,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1273,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1274,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1275,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1276,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1277,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1278,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1279,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1280,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1281,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1282,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1283,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1284,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1285,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1286,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1287,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1288,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1289,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1290,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1291,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1292,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1293,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1294,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1295,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1296,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1297,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1298,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1299,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1300,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1301,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1302,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1303,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1304,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1305,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1306,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1307,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1308,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1309,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1310,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1311,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1312,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1313,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1314,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1315,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1316,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1317,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1318,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1319,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1320,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1321,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1322,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1323,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1324,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1325,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1326,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1327,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1328,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1329,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1330,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1331,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1332,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1333,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1334,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1335,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1336,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1337,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1338,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1339,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1340,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1341,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1342,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1343,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1344,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1345,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1346,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1347,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1348,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1349,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1350,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1351,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1352,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1353,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1354,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1355,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1356,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1357,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1358,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1359,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1360,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1361,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1362,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1363,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1364,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1365,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1366,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1367,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1368,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1369,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1370,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1371,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1372,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1373,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1374,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1375,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1376,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1377,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1378,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1379,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1380,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1381,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1382,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1383,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1384,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1385,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1386,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1387,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1388,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1389,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1390,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1391,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1392,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1393,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1394,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1395,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1396,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1397,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1398,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1399,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1400,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1401,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1402,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1403,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1404,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1405,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1406,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1407,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1408,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1409,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1410,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1411,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1412,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1413,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1414,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1415,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1416,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1417,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1418,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1419,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1420,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1421,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1422,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1423,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1424,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1425,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1426,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1427,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1428,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1429,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1430,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1431,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1432,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1433,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1434,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1435,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1436,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1437,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1438,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1439,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1440,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1441,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1442,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1443,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1444,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1445,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1446,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1447,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1448,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1449,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1450,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1451,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1452,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1453,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1454,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1455,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1456,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1457,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1458,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1459,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1460,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1461,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1462,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1463,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1464,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1465,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1466,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1467,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1468,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1469,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1470,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1471,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1472,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1473,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1474,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1475,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1476,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1477,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1478,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1479,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1480,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1481,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1482,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1483,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1484,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1485,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1486,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1487,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1488,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1489,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1490,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1491,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1492,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1493,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1494,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1495,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1496,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1497,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1498,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1499,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1500,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1501,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1502,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1503,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1504,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1505,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1506,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1507,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1508,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1509,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1510,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1511,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1512,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1513,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1514,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1515,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1516,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1517,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1518,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1519,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1520,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1521,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1522,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1523,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1524,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1525,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1526,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1527,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1528,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1529,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1530,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1531,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1532,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1533,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1534,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1535,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1536,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1537,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1538,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1539,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1540,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1541,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1542,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1543,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1544,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1545,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1546,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1547,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1548,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1549,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1550,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1551,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1552,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1553,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1554,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1555,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1556,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1557,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1558,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1559,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1560,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1561,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1562,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1563,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1564,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1565,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1566,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1567,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1568,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1569,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1570,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1571,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1572,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1573,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1574,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1575,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1576,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1577,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1578,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1579,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1580,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1581,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1582,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1583,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1584,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1585,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1586,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1587,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1588,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1589,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1590,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1591,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1592,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1593,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1594,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1595,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1596,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1597,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1598,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1599,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1600,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1601,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1602,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1603,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1604,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1605,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1606,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1607,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1608,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1609,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1610,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1611,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1612,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1613,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1614,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1615,NA,survival,individual-level binomial survival,0,0 = did not survive life stage,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
YEE35,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),8.25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.641,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE36,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),8.1667,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.5207,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE37,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),8.2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.4771,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE38,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),8.7778,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.4047,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE39,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),8.8571,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.5042,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE40,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),8.6667,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.3886,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE41,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),9.1667,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.3727,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE42,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.462,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE43,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.4138,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE44,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),8.375,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.4439,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE45,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),8.6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.3968,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE46,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),9.6364,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.4628,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE47,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),9.8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.4917,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE48,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),10.4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.3607,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE49,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),10.625,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.3536,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE50,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),10.1818,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.3583,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE51,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),10.6154,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.3532,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE52,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),10.7333,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.3027,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE53,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),10.5385,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.3269,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE54,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),10.2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.2938,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE55,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),9.8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.3276,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE56,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),10.4091,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.4071,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE57,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),10.6667,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.3366,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE58,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),8.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.4719,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE59,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.4563,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE60,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),10.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.4558,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE61,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.313,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE62,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),10.3333,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.465,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE63,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),10.1667,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.4231,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE64,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),10.25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.4663,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE65,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.4232,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE66,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),9.6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.4034,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE67,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),9.6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.393,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE68,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),11.4286,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.4477,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE69,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.3703,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE70,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),10.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.3117,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE71,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),11.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.3042,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE72,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),10.2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.3536,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE73,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),10.7143,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.3288,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE74,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),8.6429,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.3385,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE75,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),10.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.3304,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE76,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),10.7143,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.3958,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE77,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),10.3333,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.4712,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE78,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),11.3846,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.2689,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE79,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),13.4286,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.244,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE80,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),12.3636,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.2657,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE81,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),10.875,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.2491,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE82,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),11.45,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.2603,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE83,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),11.8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.2721,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE84,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),11.6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.2368,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE85,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),10.9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.2452,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE86,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),13.875,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.2611,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE87,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.2872,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE88,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),13.8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.4049,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE89,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.4266,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE90,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),14.25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.3853,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE91,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),13.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.3953,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE92,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.2974,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE93,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),14.8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.35,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE94,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.2844,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE95,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.3638,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE96,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),14.1667,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.3629,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE97,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),14.6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.3317,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE98,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),14.3636,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.3953,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE99,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),14.1111,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.3528,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE100,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),13.6667,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.381,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE101,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),14.375,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.3529,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE102,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),14.6667,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.3557,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE103,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.3401,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE104,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),17.6667,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.2882,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE105,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),15.2222,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.3389,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE106,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),14.7857,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.2395,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE107,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),14.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.2761,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE108,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),14.1333,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.2868,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE109,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),14.3125,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.2556,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE110,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.2284,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE111,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),13.7647,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.2902,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE112,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),15.05,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.2142,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE113,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),15.0588,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.2084,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE114,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),14.5714,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.2722,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE115,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),15.8095,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.2564,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE116,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.3994,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE117,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),7.6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.4049,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE118,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),6.3333,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.2814,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE119,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.3586,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE120,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),7.6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.3516,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE121,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),8.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.358,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE122,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),7.3333,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.3599,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE123,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),7.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.3375,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE124,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),7.5714,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.3136,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE125,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),7.3333,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.328,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE126,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),7.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.2816,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE127,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),8.5556,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.2767,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE128,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),8.3333,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.3078,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE129,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),7.5714,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.3191,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE130,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),7.7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.2942,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE131,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),8.1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.2619,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE132,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),7.6667,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.2823,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE133,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),7.4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.3045,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE134,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),7.5714,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.2137,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE135,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),9.5263,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.1771,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE136,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),9.0588,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.2294,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE137,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),8.4444,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.2066,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE138,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),8.4737,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.1885,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE139,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),8.4762,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.2333,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE140,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),8.55,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.2018,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE141,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),8.1667,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.2043,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE142,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),7.9167,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.171,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE143,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.1586,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE144,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),6.8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.3208,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE145,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.3688,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE146,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.2945,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE147,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),7.8571,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.3181,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE148,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),8.5714,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.2619,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE149,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.3154,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE150,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),7.4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.2898,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE151,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),9.3333,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.3025,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE153,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.2914,mg,dry mass,10,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE154,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),10.8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.2742,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE155,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),8.5385,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.2344,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE156,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),8.6667,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.2348,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE157,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),7.2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.1812,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE158,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),8.3077,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.2245,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE159,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),8.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.1307,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE160,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),6.6667,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.2276,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE161,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),9.625,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.2247,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE162,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),9.8333,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.2358,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE163,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),9.4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.214,mg,dry mass,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE164,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),10.6667,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.1897,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE165,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),10.3333,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.1498,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE166,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.1769,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE167,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),10.4444,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.1628,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE168,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),9.0769,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.1702,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE169,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),9.6667,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.1699,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE170,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),9.8333,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.1438,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE171,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.179,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE172,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),11.45,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.1988,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
YEE173,NA,development time,individual-level duration of life stage as a function of temperature and larval rearing density (interactor1dens),10.9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Hattiesburg MS,field,NA,0,decimal,31.315833,-89.308611,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,0.1772,mg,dry mass,40,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary data (sheet 1),Ezeakacha and Yee. 2019. The role of temperature in affecting carry-over effects and larval competition in the globally invasive mosquito Aedes albopictus. Parasites Vectors 12:123,10.1186/s13071-019-3391-1,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2009
NA,FAJ003,development time,mean duration of life stage,24.69,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,0 = low (0.05 mg per larvae for L1 and L2 and 0.1 mg per larvae per day for L3 and L4) 1 = high (0.2 per larvae per day for L1 and L2 and 0.5 mg per larvae per day for L3 and L4),0,NA,NA,NA,NA,NA,NA,Moshi Tanzania,colony,NA,0,decimal,-3.343889,37.335278,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),female,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Farjana et al. 2012. Effects of temperature and diet on development and interspecies competition in Aedes aegypti and Aedes albopictus. Med Vet. Entomol. 26,10.1111/j.1365-2915.2011.00971.x,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2012
NA,FAJ003,development time,mean duration of life stage,18.14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,0 = low (0.05 mg per larvae for L1 and L2 and 0.1 mg per larvae per day for L3 and L4) 1 = high (0.2 per larvae per day for L1 and L2 and 0.5 mg per larvae per day for L3 and L4),0,NA,NA,NA,NA,NA,NA,Moshi Tanzania,colony,NA,0,decimal,-3.343889,37.335278,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Farjana et al. 2012. Effects of temperature and diet on development and interspecies competition in Aedes aegypti and Aedes albopictus. Med Vet. Entomol. 26,10.1111/j.1365-2915.2011.00971.x,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2012
NA,FAJ003,development time,mean duration of life stage,12.57,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,0 = low (0.05 mg per larvae for L1 and L2 and 0.1 mg per larvae per day for L3 and L4) 1 = high (0.2 per larvae per day for L1 and L2 and 0.5 mg per larvae per day for L3 and L4),0,NA,NA,NA,NA,NA,NA,Moshi Tanzania,colony,NA,0,decimal,-3.343889,37.335278,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Farjana et al. 2012. Effects of temperature and diet on development and interspecies competition in Aedes aegypti and Aedes albopictus. Med Vet. Entomol. 26,10.1111/j.1365-2915.2011.00971.x,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2012
NA,FAJ003,development time,mean duration of life stage,10.8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,0 = low (0.05 mg per larvae for L1 and L2 and 0.1 mg per larvae per day for L3 and L4) 1 = high (0.2 per larvae per day for L1 and L2 and 0.5 mg per larvae per day for L3 and L4),0,NA,NA,NA,NA,NA,NA,Moshi Tanzania,colony,NA,0,decimal,-3.343889,37.335278,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),female,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Farjana et al. 2012. Effects of temperature and diet on development and interspecies competition in Aedes aegypti and Aedes albopictus. Med Vet. Entomol. 26,10.1111/j.1365-2915.2011.00971.x,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2012
NA,FAJ003,development time,mean duration of life stage,16.85,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,0 = low (0.05 mg per larvae for L1 and L2 and 0.1 mg per larvae per day for L3 and L4) 1 = high (0.2 per larvae per day for L1 and L2 and 0.5 mg per larvae per day for L3 and L4),1,NA,NA,NA,NA,NA,NA,Moshi Tanzania,colony,NA,0,decimal,-3.343889,37.335278,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),female,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Farjana et al. 2012. Effects of temperature and diet on development and interspecies competition in Aedes aegypti and Aedes albopictus. Med Vet. Entomol. 26,10.1111/j.1365-2915.2011.00971.x,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2012
NA,FAJ003,development time,mean duration of life stage,12.97,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,0 = low (0.05 mg per larvae for L1 and L2 and 0.1 mg per larvae per day for L3 and L4) 1 = high (0.2 per larvae per day for L1 and L2 and 0.5 mg per larvae per day for L3 and L4),1,NA,NA,NA,NA,NA,NA,Moshi Tanzania,colony,NA,0,decimal,-3.343889,37.335278,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Farjana et al. 2012. Effects of temperature and diet on development and interspecies competition in Aedes aegypti and Aedes albopictus. Med Vet. Entomol. 26,10.1111/j.1365-2915.2011.00971.x,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2012
NA,FAJ003,development time,mean duration of life stage,8.21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,0 = low (0.05 mg per larvae for L1 and L2 and 0.1 mg per larvae per day for L3 and L4) 1 = high (0.2 per larvae per day for L1 and L2 and 0.5 mg per larvae per day for L3 and L4),1,NA,NA,NA,NA,NA,NA,Moshi Tanzania,colony,NA,0,decimal,-3.343889,37.335278,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Farjana et al. 2012. Effects of temperature and diet on development and interspecies competition in Aedes aegypti and Aedes albopictus. Med Vet. Entomol. 26,10.1111/j.1365-2915.2011.00971.x,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2012
NA,FAJ003,development time,mean duration of life stage,7.94,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,0 = low (0.05 mg per larvae for L1 and L2 and 0.1 mg per larvae per day for L3 and L4) 1 = high (0.2 per larvae per day for L1 and L2 and 0.5 mg per larvae per day for L3 and L4),1,NA,NA,NA,NA,NA,NA,Moshi Tanzania,colony,NA,0,decimal,-3.343889,37.335278,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),female,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Farjana et al. 2012. Effects of temperature and diet on development and interspecies competition in Aedes aegypti and Aedes albopictus. Med Vet. Entomol. 26,10.1111/j.1365-2915.2011.00971.x,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2012
NA,FAJ003,development time,mean duration of life stage,20.12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,0 = low (0.05 mg per larvae for L1 and L2 and 0.1 mg per larvae per day for L3 and L4) 1 = high (0.2 per larvae per day for L1 and L2 and 0.5 mg per larvae per day for L3 and L4),0,NA,NA,NA,NA,NA,NA,Moshi Tanzania,colony,NA,0,decimal,-3.343889,37.335278,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),male,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Farjana et al. 2012. Effects of temperature and diet on development and interspecies competition in Aedes aegypti and Aedes albopictus. Med Vet. Entomol. 26,10.1111/j.1365-2915.2011.00971.x,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2012
NA,FAJ003,development time,mean duration of life stage,14.38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,0 = low (0.05 mg per larvae for L1 and L2 and 0.1 mg per larvae per day for L3 and L4) 1 = high (0.2 per larvae per day for L1 and L2 and 0.5 mg per larvae per day for L3 and L4),0,NA,NA,NA,NA,NA,NA,Moshi Tanzania,colony,NA,0,decimal,-3.343889,37.335278,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),male,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Farjana et al. 2012. Effects of temperature and diet on development and interspecies competition in Aedes aegypti and Aedes albopictus. Med Vet. Entomol. 26,10.1111/j.1365-2915.2011.00971.x,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2012
NA,FAJ003,development time,mean duration of life stage,10.32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,0 = low (0.05 mg per larvae for L1 and L2 and 0.1 mg per larvae per day for L3 and L4) 1 = high (0.2 per larvae per day for L1 and L2 and 0.5 mg per larvae per day for L3 and L4),0,NA,NA,NA,NA,NA,NA,Moshi Tanzania,colony,NA,0,decimal,-3.343889,37.335278,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),male,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Farjana et al. 2012. Effects of temperature and diet on development and interspecies competition in Aedes aegypti and Aedes albopictus. Med Vet. Entomol. 26,10.1111/j.1365-2915.2011.00971.x,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2012
NA,FAJ003,development time,mean duration of life stage,10.24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,0 = low (0.05 mg per larvae for L1 and L2 and 0.1 mg per larvae per day for L3 and L4) 1 = high (0.2 per larvae per day for L1 and L2 and 0.5 mg per larvae per day for L3 and L4),0,NA,NA,NA,NA,NA,NA,Moshi Tanzania,colony,NA,0,decimal,-3.343889,37.335278,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),male,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Farjana et al. 2012. Effects of temperature and diet on development and interspecies competition in Aedes aegypti and Aedes albopictus. Med Vet. Entomol. 26,10.1111/j.1365-2915.2011.00971.x,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2012
NA,FAJ003,development time,mean duration of life stage,15.09,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,0 = low (0.05 mg per larvae for L1 and L2 and 0.1 mg per larvae per day for L3 and L4) 1 = high (0.2 per larvae per day for L1 and L2 and 0.5 mg per larvae per day for L3 and L4),1,NA,NA,NA,NA,NA,NA,Moshi Tanzania,colony,NA,0,decimal,-3.343889,37.335278,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),male,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Farjana et al. 2012. Effects of temperature and diet on development and interspecies competition in Aedes aegypti and Aedes albopictus. Med Vet. Entomol. 26,10.1111/j.1365-2915.2011.00971.x,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2012
NA,FAJ003,development time,mean duration of life stage,11.74,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,0 = low (0.05 mg per larvae for L1 and L2 and 0.1 mg per larvae per day for L3 and L4) 1 = high (0.2 per larvae per day for L1 and L2 and 0.5 mg per larvae per day for L3 and L4),1,NA,NA,NA,NA,NA,NA,Moshi Tanzania,colony,NA,0,decimal,-3.343889,37.335278,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),male,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Farjana et al. 2012. Effects of temperature and diet on development and interspecies competition in Aedes aegypti and Aedes albopictus. Med Vet. Entomol. 26,10.1111/j.1365-2915.2011.00971.x,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2012
NA,FAJ003,development time,mean duration of life stage,7.24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,0 = low (0.05 mg per larvae for L1 and L2 and 0.1 mg per larvae per day for L3 and L4) 1 = high (0.2 per larvae per day for L1 and L2 and 0.5 mg per larvae per day for L3 and L4),1,NA,NA,NA,NA,NA,NA,Moshi Tanzania,colony,NA,0,decimal,-3.343889,37.335278,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),male,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Farjana et al. 2012. Effects of temperature and diet on development and interspecies competition in Aedes aegypti and Aedes albopictus. Med Vet. Entomol. 26,10.1111/j.1365-2915.2011.00971.x,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2012
NA,FAJ003,development time,mean duration of life stage,6.71,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,0 = low (0.05 mg per larvae for L1 and L2 and 0.1 mg per larvae per day for L3 and L4) 1 = high (0.2 per larvae per day for L1 and L2 and 0.5 mg per larvae per day for L3 and L4),1,NA,NA,NA,NA,NA,NA,Moshi Tanzania,colony,NA,0,decimal,-3.343889,37.335278,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),male,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Farjana et al. 2012. Effects of temperature and diet on development and interspecies competition in Aedes aegypti and Aedes albopictus. Med Vet. Entomol. 26,10.1111/j.1365-2915.2011.00971.x,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2012
NA,FAJ004,development time,mean duration of life stage,23.82,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,0 = low (0.05 mg per larvae for L1 and L2 and 0.1 mg per larvae per day for L3 and L4) 1 = high (0.2 per larvae per day for L1 and L2 and 0.5 mg per larvae per day for L3 and L4),0,NA,NA,NA,NA,NA,NA,Nagasaki Japan,colony,NA,0,decimal,32.772222,129.869444,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Farjana et al. 2012. Effects of temperature and diet on development and interspecies competition in Aedes aegypti and Aedes albopictus. Med Vet. Entomol. 26,10.1111/j.1365-2915.2011.00971.x,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2012
NA,FAJ004,development time,mean duration of life stage,18.18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,0 = low (0.05 mg per larvae for L1 and L2 and 0.1 mg per larvae per day for L3 and L4) 1 = high (0.2 per larvae per day for L1 and L2 and 0.5 mg per larvae per day for L3 and L4),0,NA,NA,NA,NA,NA,NA,Nagasaki Japan,colony,NA,0,decimal,32.772222,129.869444,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Farjana et al. 2012. Effects of temperature and diet on development and interspecies competition in Aedes aegypti and Aedes albopictus. Med Vet. Entomol. 26,10.1111/j.1365-2915.2011.00971.x,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2012
NA,FAJ004,development time,mean duration of life stage,12.64,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,0 = low (0.05 mg per larvae for L1 and L2 and 0.1 mg per larvae per day for L3 and L4) 1 = high (0.2 per larvae per day for L1 and L2 and 0.5 mg per larvae per day for L3 and L4),0,NA,NA,NA,NA,NA,NA,Nagasaki Japan,colony,NA,0,decimal,32.772222,129.869444,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Farjana et al. 2012. Effects of temperature and diet on development and interspecies competition in Aedes aegypti and Aedes albopictus. Med Vet. Entomol. 26,10.1111/j.1365-2915.2011.00971.x,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2012
NA,FAJ004,development time,mean duration of life stage,13.09,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,0 = low (0.05 mg per larvae for L1 and L2 and 0.1 mg per larvae per day for L3 and L4) 1 = high (0.2 per larvae per day for L1 and L2 and 0.5 mg per larvae per day for L3 and L4),0,NA,NA,NA,NA,NA,NA,Nagasaki Japan,colony,NA,0,decimal,32.772222,129.869444,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Farjana et al. 2012. Effects of temperature and diet on development and interspecies competition in Aedes aegypti and Aedes albopictus. Med Vet. Entomol. 26,10.1111/j.1365-2915.2011.00971.x,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2012
NA,FAJ004,development time,mean duration of life stage,17.09,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,0 = low (0.05 mg per larvae for L1 and L2 and 0.1 mg per larvae per day for L3 and L4) 1 = high (0.2 per larvae per day for L1 and L2 and 0.5 mg per larvae per day for L3 and L4),1,NA,NA,NA,NA,NA,NA,Nagasaki Japan,colony,NA,0,decimal,32.772222,129.869444,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Farjana et al. 2012. Effects of temperature and diet on development and interspecies competition in Aedes aegypti and Aedes albopictus. Med Vet. Entomol. 26,10.1111/j.1365-2915.2011.00971.x,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2012
NA,FAJ004,development time,mean duration of life stage,13.09,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,0 = low (0.05 mg per larvae for L1 and L2 and 0.1 mg per larvae per day for L3 and L4) 1 = high (0.2 per larvae per day for L1 and L2 and 0.5 mg per larvae per day for L3 and L4),1,NA,NA,NA,NA,NA,NA,Nagasaki Japan,colony,NA,0,decimal,32.772222,129.869444,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Farjana et al. 2012. Effects of temperature and diet on development and interspecies competition in Aedes aegypti and Aedes albopictus. Med Vet. Entomol. 26,10.1111/j.1365-2915.2011.00971.x,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2012
NA,FAJ004,development time,mean duration of life stage,8.91,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,0 = low (0.05 mg per larvae for L1 and L2 and 0.1 mg per larvae per day for L3 and L4) 1 = high (0.2 per larvae per day for L1 and L2 and 0.5 mg per larvae per day for L3 and L4),1,NA,NA,NA,NA,NA,NA,Nagasaki Japan,colony,NA,0,decimal,32.772222,129.869444,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Farjana et al. 2012. Effects of temperature and diet on development and interspecies competition in Aedes aegypti and Aedes albopictus. Med Vet. Entomol. 26,10.1111/j.1365-2915.2011.00971.x,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2012
NA,FAJ004,development time,mean duration of life stage,8.27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,0 = low (0.05 mg per larvae for L1 and L2 and 0.1 mg per larvae per day for L3 and L4) 1 = high (0.2 per larvae per day for L1 and L2 and 0.5 mg per larvae per day for L3 and L4),1,NA,NA,NA,NA,NA,NA,Nagasaki Japan,colony,NA,0,decimal,32.772222,129.869444,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Farjana et al. 2012. Effects of temperature and diet on development and interspecies competition in Aedes aegypti and Aedes albopictus. Med Vet. Entomol. 26,10.1111/j.1365-2915.2011.00971.x,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2012
NA,FAJ004,development time,mean duration of life stage,21.27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,0 = low (0.05 mg per larvae for L1 and L2 and 0.1 mg per larvae per day for L3 and L4) 1 = high (0.2 per larvae per day for L1 and L2 and 0.5 mg per larvae per day for L3 and L4),0,NA,NA,NA,NA,NA,NA,Nagasaki Japan,colony,NA,0,decimal,32.772222,129.869444,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Farjana et al. 2012. Effects of temperature and diet on development and interspecies competition in Aedes aegypti and Aedes albopictus. Med Vet. Entomol. 26,10.1111/j.1365-2915.2011.00971.x,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2012
NA,FAJ004,development time,mean duration of life stage,15.55,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,0 = low (0.05 mg per larvae for L1 and L2 and 0.1 mg per larvae per day for L3 and L4) 1 = high (0.2 per larvae per day for L1 and L2 and 0.5 mg per larvae per day for L3 and L4),0,NA,NA,NA,NA,NA,NA,Nagasaki Japan,colony,NA,0,decimal,32.772222,129.869444,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Farjana et al. 2012. Effects of temperature and diet on development and interspecies competition in Aedes aegypti and Aedes albopictus. Med Vet. Entomol. 26,10.1111/j.1365-2915.2011.00971.x,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2012
NA,FAJ004,development time,mean duration of life stage,10.36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,0 = low (0.05 mg per larvae for L1 and L2 and 0.1 mg per larvae per day for L3 and L4) 1 = high (0.2 per larvae per day for L1 and L2 and 0.5 mg per larvae per day for L3 and L4),0,NA,NA,NA,NA,NA,NA,Nagasaki Japan,colony,NA,0,decimal,32.772222,129.869444,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Farjana et al. 2012. Effects of temperature and diet on development and interspecies competition in Aedes aegypti and Aedes albopictus. Med Vet. Entomol. 26,10.1111/j.1365-2915.2011.00971.x,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2012
NA,FAJ004,development time,mean duration of life stage,12.55,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,0 = low (0.05 mg per larvae for L1 and L2 and 0.1 mg per larvae per day for L3 and L4) 1 = high (0.2 per larvae per day for L1 and L2 and 0.5 mg per larvae per day for L3 and L4),0,NA,NA,NA,NA,NA,NA,Nagasaki Japan,colony,NA,0,decimal,32.772222,129.869444,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Farjana et al. 2012. Effects of temperature and diet on development and interspecies competition in Aedes aegypti and Aedes albopictus. Med Vet. Entomol. 26,10.1111/j.1365-2915.2011.00971.x,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2012
NA,FAJ004,development time,mean duration of life stage,15.55,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,0 = low (0.05 mg per larvae for L1 and L2 and 0.1 mg per larvae per day for L3 and L4) 1 = high (0.2 per larvae per day for L1 and L2 and 0.5 mg per larvae per day for L3 and L4),1,NA,NA,NA,NA,NA,NA,Nagasaki Japan,colony,NA,0,decimal,32.772222,129.869444,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Farjana et al. 2012. Effects of temperature and diet on development and interspecies competition in Aedes aegypti and Aedes albopictus. Med Vet. Entomol. 26,10.1111/j.1365-2915.2011.00971.x,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2012
NA,FAJ004,development time,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,0 = low (0.05 mg per larvae for L1 and L2 and 0.1 mg per larvae per day for L3 and L4) 1 = high (0.2 per larvae per day for L1 and L2 and 0.5 mg per larvae per day for L3 and L4),1,NA,NA,NA,NA,NA,NA,Nagasaki Japan,colony,NA,0,decimal,32.772222,129.869444,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Farjana et al. 2012. Effects of temperature and diet on development and interspecies competition in Aedes aegypti and Aedes albopictus. Med Vet. Entomol. 26,10.1111/j.1365-2915.2011.00971.x,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2012
NA,FAJ004,development time,mean duration of life stage,7.64,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,0 = low (0.05 mg per larvae for L1 and L2 and 0.1 mg per larvae per day for L3 and L4) 1 = high (0.2 per larvae per day for L1 and L2 and 0.5 mg per larvae per day for L3 and L4),1,NA,NA,NA,NA,NA,NA,Nagasaki Japan,colony,NA,0,decimal,32.772222,129.869444,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Farjana et al. 2012. Effects of temperature and diet on development and interspecies competition in Aedes aegypti and Aedes albopictus. Med Vet. Entomol. 26,10.1111/j.1365-2915.2011.00971.x,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2012
NA,FAJ004,development time,mean duration of life stage,9.09,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,0 = low (0.05 mg per larvae for L1 and L2 and 0.1 mg per larvae per day for L3 and L4) 1 = high (0.2 per larvae per day for L1 and L2 and 0.5 mg per larvae per day for L3 and L4),1,NA,NA,NA,NA,NA,NA,Nagasaki Japan,colony,NA,0,decimal,32.772222,129.869444,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Farjana et al. 2012. Effects of temperature and diet on development and interspecies competition in Aedes aegypti and Aedes albopictus. Med Vet. Entomol. 26,10.1111/j.1365-2915.2011.00971.x,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2012
NA,NA,development time,mean duration of life stage,489.3,hours,0.6,0.6,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Instituto Oswaldo Cruz-Fiocruz Rio de Janeiro Brasil,colony (Rockefeller strain),NA,0,NA,NA,NA,Aedes aegypti,Yellow fever mosquito,NA,NA,600,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farnesi et al. 2009. Embryonic development of Aedes aegypti (Diptera: Culicidae): Influence of different constant temperatures. Mem. Inst. Oswaldo Cruz. 104: 124-126,10.1590/s0074-02762009000100020,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,NA,development time,mean duration of life stage,98.3,hours,0.7,0.7,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Instituto Oswaldo Cruz-Fiocruz Rio de Janeiro Brasil,colony (Rockefeller strain),NA,0,NA,NA,NA,Aedes aegypti,Yellow fever mosquito,NA,NA,360,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farnesi et al. 2009. Embryonic development of Aedes aegypti (Diptera: Culicidae): Influence of different constant temperatures. Mem. Inst. Oswaldo Cruz. 104: 124-126,10.1590/s0074-02762009000100020,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,NA,development time,mean duration of life stage,77.4,hours,0.8,0.8,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Instituto Oswaldo Cruz-Fiocruz Rio de Janeiro Brasil,colony (Rockefeller strain),NA,0,NA,NA,NA,Aedes aegypti,Yellow fever mosquito,NA,NA,360,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farnesi et al. 2009. Embryonic development of Aedes aegypti (Diptera: Culicidae): Influence of different constant temperatures. Mem. Inst. Oswaldo Cruz. 104: 124-126,10.1590/s0074-02762009000100020,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,NA,development time,mean duration of life stage,61.6,hours,1.2,1.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Instituto Oswaldo Cruz-Fiocruz Rio de Janeiro Brasil,colony (Rockefeller strain),NA,0,NA,NA,NA,Aedes aegypti,Yellow fever mosquito,NA,NA,360,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farnesi et al. 2009. Embryonic development of Aedes aegypti (Diptera: Culicidae): Influence of different constant temperatures. Mem. Inst. Oswaldo Cruz. 104: 124-126,10.1590/s0074-02762009000100020,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,NA,development time,mean duration of life stage,48.4,hours,0.5,0.5,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Instituto Oswaldo Cruz-Fiocruz Rio de Janeiro Brasil,colony (Rockefeller strain),NA,0,NA,NA,NA,Aedes aegypti,Yellow fever mosquito,NA,NA,360,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farnesi et al. 2009. Embryonic development of Aedes aegypti (Diptera: Culicidae): Influence of different constant temperatures. Mem. Inst. Oswaldo Cruz. 104: 124-126,10.1590/s0074-02762009000100020,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,NA,development time,mean duration of life stage,50.3,hours,0.3,0.3,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Instituto Oswaldo Cruz-Fiocruz Rio de Janeiro Brasil,colony (Rockefeller strain),NA,0,NA,NA,NA,Aedes aegypti,Yellow fever mosquito,NA,NA,300,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farnesi et al. 2009. Embryonic development of Aedes aegypti (Diptera: Culicidae): Influence of different constant temperatures. Mem. Inst. Oswaldo Cruz. 104: 124-126,10.1590/s0074-02762009000100020,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,NA,development time,mean duration of life stage,0,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Instituto Oswaldo Cruz-Fiocruz Rio de Janeiro Brasil,colony (Rockefeller strain),NA,0,NA,NA,NA,Aedes aegypti,Yellow fever mosquito,NA,NA,300,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Farnesi et al. 2009. Embryonic development of Aedes aegypti (Diptera: Culicidae): Influence of different constant temperatures. Mem. Inst. Oswaldo Cruz. 104: 124-126,10.1590/s0074-02762009000100020,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,GRE001,development time,mean duration of life stage,6.82,days,0.01,0.01,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cordoba Argentina,field,NA,0,decimal,-31.366667,-64.2,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 and L2,NA,15.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Grech et al. 2015. Effect of temperature on life history traits during immature development of Aedes aegypti and Culex quinquefasciatus (Diptera:Culicidae) from Cordoba city Argentina.,10.1016/j.actatropica.2015.02.010,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,GRE001,development time,mean duration of life stage,4.23,days,0.04,0.04,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cordoba Argentina,field,NA,0,decimal,-31.366667,-64.2,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 and L2,NA,17.9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Grech et al. 2015. Effect of temperature on life history traits during immature development of Aedes aegypti and Culex quinquefasciatus (Diptera:Culicidae) from Cordoba city Argentina.,10.1016/j.actatropica.2015.02.010,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,GRE001,development time,mean duration of life stage,2.41,days,0.09,0.09,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cordoba Argentina,field,NA,0,decimal,-31.366667,-64.2,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 and L2,NA,21.6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Grech et al. 2015. Effect of temperature on life history traits during immature development of Aedes aegypti and Culex quinquefasciatus (Diptera:Culicidae) from Cordoba city Argentina.,10.1016/j.actatropica.2015.02.010,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,GRE001,development time,mean duration of life stage,3.19,days,0.01,0.01,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cordoba Argentina,field,NA,0,decimal,-31.366667,-64.2,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 and L2,NA,25.3,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Grech et al. 2015. Effect of temperature on life history traits during immature development of Aedes aegypti and Culex quinquefasciatus (Diptera:Culicidae) from Cordoba city Argentina.,10.1016/j.actatropica.2015.02.010,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,GRE001,development time,mean duration of life stage,5.49,days,0.09,0.09,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cordoba Argentina,field,NA,0,decimal,-31.366667,-64.2,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,15.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Grech et al. 2015. Effect of temperature on life history traits during immature development of Aedes aegypti and Culex quinquefasciatus (Diptera:Culicidae) from Cordoba city Argentina.,10.1016/j.actatropica.2015.02.010,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,GRE001,development time,mean duration of life stage,4.26,days,0.13,0.13,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cordoba Argentina,field,NA,0,decimal,-31.366667,-64.2,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,17.9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Grech et al. 2015. Effect of temperature on life history traits during immature development of Aedes aegypti and Culex quinquefasciatus (Diptera:Culicidae) from Cordoba city Argentina.,10.1016/j.actatropica.2015.02.010,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,GRE001,development time,mean duration of life stage,1.75,days,0.28,0.28,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cordoba Argentina,field,NA,0,decimal,-31.366667,-64.2,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,21.6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Grech et al. 2015. Effect of temperature on life history traits during immature development of Aedes aegypti and Culex quinquefasciatus (Diptera:Culicidae) from Cordoba city Argentina.,10.1016/j.actatropica.2015.02.010,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,GRE001,development time,mean duration of life stage,1.26,days,0.04,0.04,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cordoba Argentina,field,NA,0,decimal,-31.366667,-64.2,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,25.3,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Grech et al. 2015. Effect of temperature on life history traits during immature development of Aedes aegypti and Culex quinquefasciatus (Diptera:Culicidae) from Cordoba city Argentina.,10.1016/j.actatropica.2015.02.010,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,GRE001,development time,mean duration of life stage,5.1,days,0.27,0.27,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cordoba Argentina,field,NA,0,decimal,-31.366667,-64.2,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,15.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Grech et al. 2015. Effect of temperature on life history traits during immature development of Aedes aegypti and Culex quinquefasciatus (Diptera:Culicidae) from Cordoba city Argentina.,10.1016/j.actatropica.2015.02.010,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,GRE001,development time,mean duration of life stage,3.22,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cordoba Argentina,field,NA,0,decimal,-31.366667,-64.2,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,17.9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Grech et al. 2015. Effect of temperature on life history traits during immature development of Aedes aegypti and Culex quinquefasciatus (Diptera:Culicidae) from Cordoba city Argentina.,10.1016/j.actatropica.2015.02.010,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,GRE001,development time,mean duration of life stage,2.75,days,0.24,0.24,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cordoba Argentina,field,NA,0,decimal,-31.366667,-64.2,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,21.6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Grech et al. 2015. Effect of temperature on life history traits during immature development of Aedes aegypti and Culex quinquefasciatus (Diptera:Culicidae) from Cordoba city Argentina.,10.1016/j.actatropica.2015.02.010,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,GRE001,development time,mean duration of life stage,2.7,days,0.16,0.16,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cordoba Argentina,field,NA,0,decimal,-31.366667,-64.2,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,25.3,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Grech et al. 2015. Effect of temperature on life history traits during immature development of Aedes aegypti and Culex quinquefasciatus (Diptera:Culicidae) from Cordoba city Argentina.,10.1016/j.actatropica.2015.02.010,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,GRE001,development time,mean duration of life stage,17.41,days,0.34,0.34,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cordoba Argentina,field,NA,0,decimal,-31.366667,-64.2,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,15.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Grech et al. 2015. Effect of temperature on life history traits during immature development of Aedes aegypti and Culex quinquefasciatus (Diptera:Culicidae) from Cordoba city Argentina.,10.1016/j.actatropica.2015.02.010,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,GRE001,development time,mean duration of life stage,11.71,days,0.29,0.29,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cordoba Argentina,field,NA,0,decimal,-31.366667,-64.2,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,17.9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Grech et al. 2015. Effect of temperature on life history traits during immature development of Aedes aegypti and Culex quinquefasciatus (Diptera:Culicidae) from Cordoba city Argentina.,10.1016/j.actatropica.2015.02.010,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,GRE001,development time,mean duration of life stage,6.91,days,0.18,0.18,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cordoba Argentina,field,NA,0,decimal,-31.366667,-64.2,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21.6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Grech et al. 2015. Effect of temperature on life history traits during immature development of Aedes aegypti and Culex quinquefasciatus (Diptera:Culicidae) from Cordoba city Argentina.,10.1016/j.actatropica.2015.02.010,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,GRE001,development time,mean duration of life stage,7.15,days,0.19,0.19,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cordoba Argentina,field,NA,0,decimal,-31.366667,-64.2,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,25.3,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Grech et al. 2015. Effect of temperature on life history traits during immature development of Aedes aegypti and Culex quinquefasciatus (Diptera:Culicidae) from Cordoba city Argentina.,10.1016/j.actatropica.2015.02.010,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,GRE001,development time,mean duration of life stage,4.56,days,0.53,0.53,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cordoba Argentina,field,NA,0,decimal,-31.366667,-64.2,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,15.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Grech et al. 2015. Effect of temperature on life history traits during immature development of Aedes aegypti and Culex quinquefasciatus (Diptera:Culicidae) from Cordoba city Argentina.,10.1016/j.actatropica.2015.02.010,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,GRE001,development time,mean duration of life stage,2.75,days,0.4,0.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cordoba Argentina,field,NA,0,decimal,-31.366667,-64.2,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,17.9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Grech et al. 2015. Effect of temperature on life history traits during immature development of Aedes aegypti and Culex quinquefasciatus (Diptera:Culicidae) from Cordoba city Argentina.,10.1016/j.actatropica.2015.02.010,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,GRE001,development time,mean duration of life stage,2.41,days,0.22,0.22,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cordoba Argentina,field,NA,0,decimal,-31.366667,-64.2,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,21.6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Grech et al. 2015. Effect of temperature on life history traits during immature development of Aedes aegypti and Culex quinquefasciatus (Diptera:Culicidae) from Cordoba city Argentina.,10.1016/j.actatropica.2015.02.010,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,GRE001,development time,mean duration of life stage,1.52,days,0.49,0.49,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cordoba Argentina,field,NA,0,decimal,-31.366667,-64.2,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,25.3,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Grech et al. 2015. Effect of temperature on life history traits during immature development of Aedes aegypti and Culex quinquefasciatus (Diptera:Culicidae) from Cordoba city Argentina.,10.1016/j.actatropica.2015.02.010,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,GRE001,development time,mean duration of life stage,21.97,days,0.19,0.19,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cordoba Argentina,field,NA,0,decimal,-31.366667,-64.2,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,15.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Grech et al. 2015. Effect of temperature on life history traits during immature development of Aedes aegypti and Culex quinquefasciatus (Diptera:Culicidae) from Cordoba city Argentina.,10.1016/j.actatropica.2015.02.010,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,GRE001,development time,mean duration of life stage,14.46,days,0.25,0.25,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cordoba Argentina,field,NA,0,decimal,-31.366667,-64.2,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,17.9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Grech et al. 2015. Effect of temperature on life history traits during immature development of Aedes aegypti and Culex quinquefasciatus (Diptera:Culicidae) from Cordoba city Argentina.,10.1016/j.actatropica.2015.02.010,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,GRE001,development time,mean duration of life stage,9.83,days,0.59,0.59,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cordoba Argentina,field,NA,0,decimal,-31.366667,-64.2,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,21.6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Grech et al. 2015. Effect of temperature on life history traits during immature development of Aedes aegypti and Culex quinquefasciatus (Diptera:Culicidae) from Cordoba city Argentina.,10.1016/j.actatropica.2015.02.010,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,GRE001,development time,mean duration of life stage,8.67,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cordoba Argentina,field,NA,0,decimal,-31.366667,-64.2,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,25.3,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Grech et al. 2015. Effect of temperature on life history traits during immature development of Aedes aegypti and Culex quinquefasciatus (Diptera:Culicidae) from Cordoba city Argentina.,10.1016/j.actatropica.2015.02.010,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2015
NA,NA,development time,mean duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,New Jersey Agricultural Experiment Station New Brunswick,colony,NA,0,decimal,40.48198384,-74.43761988,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,7.8,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Headlee 1941. Further studies of the relative effects on insect metabolism of temperatures derived from constant and variable sources. J. Econ. Entomol. 34: 171-174.,10.1093/jee/34.2.171,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1941
NA,NA,development time,mean duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,New Jersey Agricultural Experiment Station New Brunswick,colony,NA,0,decimal,40.48198384,-74.43761988,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Headlee 1941. Further studies of the relative effects on insect metabolism of temperatures derived from constant and variable sources. J. Econ. Entomol. 34: 171-174.,10.1093/jee/34.2.171,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1941
NA,NA,development time,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,New Jersey Agricultural Experiment Station New Brunswick,colony,NA,0,decimal,40.48198384,-74.43761988,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,16.1,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Headlee 1941. Further studies of the relative effects on insect metabolism of temperatures derived from constant and variable sources. J. Econ. Entomol. 34: 171-174.,10.1093/jee/34.2.171,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1941
NA,NA,development time,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,New Jersey Agricultural Experiment Station New Brunswick,colony,NA,0,decimal,40.48198384,-74.43761988,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Headlee 1941. Further studies of the relative effects on insect metabolism of temperatures derived from constant and variable sources. J. Econ. Entomol. 34: 171-174.,10.1093/jee/34.2.171,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1941
NA,NA,development time,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,New Jersey Agricultural Experiment Station New Brunswick,colony,NA,0,decimal,40.48198384,-74.43761988,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,23.3,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Headlee 1941. Further studies of the relative effects on insect metabolism of temperatures derived from constant and variable sources. J. Econ. Entomol. 34: 171-174.,10.1093/jee/34.2.171,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1941
NA,NA,development time,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,New Jersey Agricultural Experiment Station New Brunswick,colony,NA,0,decimal,40.48198384,-74.43761988,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,27.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Headlee 1941. Further studies of the relative effects on insect metabolism of temperatures derived from constant and variable sources. J. Econ. Entomol. 34: 171-174.,10.1093/jee/34.2.171,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1941
NA,NA,development time,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,New Jersey Agricultural Experiment Station New Brunswick,colony,NA,0,decimal,40.48198384,-74.43761988,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,31.1,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Headlee 1941. Further studies of the relative effects on insect metabolism of temperatures derived from constant and variable sources. J. Econ. Entomol. 34: 171-174.,10.1093/jee/34.2.171,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1941
NA,NA,development time,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,New Jersey Agricultural Experiment Station New Brunswick,colony,NA,0,decimal,40.48198384,-74.43761988,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34.4,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Headlee 1941. Further studies of the relative effects on insect metabolism of temperatures derived from constant and variable sources. J. Econ. Entomol. 34: 171-174.,10.1093/jee/34.2.171,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1941
NA,NA,development time,mean duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,New Jersey Agricultural Experiment Station New Brunswick,colony,NA,0,decimal,40.48198384,-74.43761988,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,38.9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Headlee 1941. Further studies of the relative effects on insect metabolism of temperatures derived from constant and variable sources. J. Econ. Entomol. 34: 171-174.,10.1093/jee/34.2.171,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1941
NA,NA,development time,mean duration of life stage as a function of larval food quantity/type,15.5,days,1,1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,oak-infused tap water with no additional larval food. very light = 1 light = 2 medium = 3 high = 4 very high = 5,1,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (egg to adult),female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage as a function of larval food quantity/type,11.56,days,0.57,0.57,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,deionized tap water with 25 mg larval food (1:1 ratio of lactalbumin:brewer yeast) added every other weekday. very light = 1 light = 2 medium = 3 high = 4 very high = 5,2,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (egg to adult),female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage as a function of larval food quantity/type,11.5,days,0.22,0.22,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,oak-infused tap water with 25 mg larval food added every other weekday. very light = 1 light = 2 medium = 3 high = 4 very high = 5,3,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (egg to adult),female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage as a function of larval food quantity/type,9.81,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,oak-infused tap water with 25 mg modified diet (1:1 ratio of liver powder:brewer yeast) added every other weekday. very light = 1 light = 2 medium = 3 high = 4 very high = 5,4,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (egg to adult),female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage as a function of larval food quantity/type,8.13,days,0.22,0.22,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,oak-infused tap water with 25 mg larval food (1:1 ratio of lactalbumin:brewer yeast) daily. very light = 1 light = 2 medium = 3 high = 4 very high = 5,5,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (egg to adult),female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage as a function of larval food quantity/type,16.24,days,2.36,2.36,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,oak-infused tap water with no additional larval food. very light = 1 light = 2 medium = 3 high = 4 very high = 5,1,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (egg to adult),female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage as a function of larval food quantity/type,11.68,days,0.14,0.14,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,deionized tap water with 25 mg larval food (1:1 ratio of lactalbumin:brewer yeast) added every other weekday. very light = 1 light = 2 medium = 3 high = 4 very high = 5,2,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (egg to adult),female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage as a function of larval food quantity/type,10.95,days,0.31,0.31,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,oak-infused tap water with 25 mg larval food added every other weekday. very light = 1 light = 2 medium = 3 high = 4 very high = 5,3,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (egg to adult),female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage as a function of larval food quantity/type,9.67,days,0.08,0.08,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,oak-infused tap water with 25 mg modified diet (1:1 ratio of liver powder:brewer yeast) added every other weekday. very light = 1 light = 2 medium = 3 high = 4 very high = 5,4,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (egg to adult),female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage as a function of larval food quantity/type,7.78,days,0.12,0.12,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,oak-infused tap water with 25 mg larval food (1:1 ratio of lactalbumin:brewer yeast) daily. very light = 1 light = 2 medium = 3 high = 4 very high = 5,5,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (egg to adult),female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,34.35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,15,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,34.91,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,15,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,35.29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,15,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,35.67,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,15,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,36.24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,15,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,11.01,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,11.2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,11.95,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,11.95,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,11.57,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,11.01,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,11.2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,11.76,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,11.64,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,12.33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,7.78,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,8.16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,8.35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,8.73,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,9.11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,7.02,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,7.59,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,8.16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,7.97,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,7.21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,36.43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,15,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,15,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,37.57,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,15,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,38.14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,15,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,39.09,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,15,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,12.14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,12.71,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,13.47,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,13.85,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,14.8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,11.95,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,12.14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,12.52,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,13.09,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,13.28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,7.4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,7.59,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,8.16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,8.54,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,9.11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,6.45,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,7.02,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,7.21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,7.59,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,7.78,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,30.47,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,15,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,32.75,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,15,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,33.27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,15,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,33.8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,15,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,34.15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,15,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,10.33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,10.68,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,11.21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,11.38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,11.56,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,9.28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,9.63,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,9.98,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,10.33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,10.68,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,7.53,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,7.53,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,7.71,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,8.23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,8.41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,5.95,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,6.3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,6.65,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,7.18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,7.71,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,field,01/01/2015,1,decimal,30.4475,-91.178611,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,34.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,15,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,34.68,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,15,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,35.03,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,15,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,35.55,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,15,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,35.9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,15,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,11.21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,11.38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,11.56,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,12.08,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,12.43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,10.51,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,10.68,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,10.86,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,11.56,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,12.08,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,6.65,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,6.83,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,7.53,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,7.88,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,8.58,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,5.95,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,6.13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,6.48,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,6.83,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,replicate-level mean duration of life stage,7.36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keyport NJ USA,colony,01/01/1995,1,decimal,40.432626,-74.200342,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Healy et al. 2019. Development of a degree-day model to predict egg hatch of Aedes albopictus. J Am Mosq Control Assoc 35:4,10.2987/19-6841.1,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
PHX331,NA,development time,individual-level duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX332,NA,development time,individual-level duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX333,NA,development time,individual-level duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX334,NA,development time,individual-level duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX335,NA,development time,individual-level duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX336,NA,development time,individual-level duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX337,NA,development time,individual-level duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX338,NA,development time,individual-level duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX339,NA,development time,individual-level duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX340,NA,development time,individual-level duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX341,NA,development time,individual-level duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX342,NA,development time,individual-level duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX343,NA,development time,individual-level duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX344,NA,development time,individual-level duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX345,NA,development time,individual-level duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX346,NA,development time,individual-level duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX347,NA,development time,individual-level duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX348,NA,development time,individual-level duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX349,NA,development time,individual-level duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX350,NA,development time,individual-level duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX351,NA,development time,individual-level duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX352,NA,development time,individual-level duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX353,NA,development time,individual-level duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX354,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX355,NA,development time,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX356,NA,development time,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX357,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX358,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX359,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX360,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX361,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX362,NA,development time,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX363,NA,development time,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX364,NA,development time,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX365,NA,development time,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX366,NA,development time,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX367,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX368,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX369,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX370,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX371,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX372,NA,development time,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX373,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX374,NA,development time,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX375,NA,development time,individual-level duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX376,NA,development time,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX377,NA,development time,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX378,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX379,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX380,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX381,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX382,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX383,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX384,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX385,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX386,NA,development time,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX387,NA,development time,individual-level duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX388,NA,development time,individual-level duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX389,NA,development time,individual-level duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX390,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX391,NA,development time,individual-level duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX392,NA,development time,individual-level duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX393,NA,development time,individual-level duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX394,NA,development time,individual-level duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX395,NA,development time,individual-level duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX396,NA,development time,individual-level duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX397,NA,development time,individual-level duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX398,NA,development time,individual-level duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX399,NA,development time,individual-level duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX400,NA,development time,individual-level duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX401,NA,development time,individual-level duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX402,NA,development time,individual-level duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX403,NA,development time,individual-level duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX404,NA,development time,individual-level duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX405,NA,development time,individual-level duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX406,NA,development time,individual-level duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX407,NA,development time,individual-level duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX408,NA,development time,individual-level duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX409,NA,development time,individual-level duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX410,NA,development time,individual-level duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX411,NA,development time,individual-level duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX412,NA,development time,individual-level duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX413,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX414,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX415,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX416,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX417,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX418,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX419,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX420,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX421,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX422,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX423,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX424,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX425,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX426,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX427,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX428,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX429,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX430,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX431,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX432,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX433,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX434,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX435,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX436,NA,development time,individual-level duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX437,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX438,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX439,NA,development time,individual-level duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX440,NA,development time,individual-level duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX441,NA,development time,individual-level duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX442,NA,development time,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX443,NA,development time,individual-level duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX444,NA,development time,individual-level duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX445,NA,development time,individual-level duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX446,NA,development time,individual-level duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX447,NA,development time,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX448,NA,development time,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX449,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX450,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX451,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX452,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX453,NA,development time,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX454,NA,development time,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX455,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX456,NA,development time,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX457,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX458,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX459,NA,development time,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX460,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX461,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX462,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX463,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX464,NA,development time,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX465,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX466,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX467,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX468,NA,development time,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX469,NA,development time,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX470,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX471,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX472,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX473,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX474,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX475,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX476,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX477,NA,development time,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX478,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX479,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX480,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX481,NA,development time,individual-level duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX482,NA,development time,individual-level duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX483,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX484,NA,development time,individual-level duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX485,NA,development time,individual-level duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHX486,NA,development time,individual-level duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,resource supply,food quantity supplied at a constant rate,0.1,mg individual-1 day-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2021. The effect of resource limitation on the temperature-dependance of mosquito fitness. Proc. R. Soc. B. 288: 20203217.,10.1098/rspb.2020.3217,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2021
PHXX1,NA,development time,individual-level duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX2,NA,development time,individual-level duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX3,NA,development time,individual-level duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX4,NA,development time,individual-level duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX5,NA,development time,individual-level duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX6,NA,development time,individual-level duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX7,NA,development time,individual-level duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX8,NA,development time,individual-level duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX9,NA,development time,individual-level duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX10,NA,development time,individual-level duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX11,NA,development time,individual-level duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX12,NA,development time,individual-level duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX13,NA,development time,individual-level duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX14,NA,development time,individual-level duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX15,NA,development time,individual-level duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX16,NA,development time,individual-level duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX17,NA,development time,individual-level duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX18,NA,development time,individual-level duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX19,NA,development time,individual-level duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX20,NA,development time,individual-level duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX21,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX22,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX23,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX24,NA,development time,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX25,NA,development time,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX26,NA,development time,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX27,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX28,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX29,NA,development time,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX30,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX31,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX32,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX33,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX34,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX35,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX36,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX37,NA,development time,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX38,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX39,NA,development time,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX40,NA,development time,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX41,NA,development time,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX42,NA,development time,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX43,NA,development time,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX44,NA,development time,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX45,NA,development time,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX46,NA,development time,individual-level duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX47,NA,development time,individual-level duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX48,NA,development time,individual-level duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX49,NA,development time,individual-level duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX50,NA,development time,individual-level duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX51,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX52,NA,development time,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX53,NA,development time,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX54,NA,development time,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX55,NA,development time,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX56,NA,development time,individual-level duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX57,NA,development time,individual-level duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX58,NA,development time,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX59,NA,development time,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX60,NA,development time,individual-level duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX61,NA,development time,individual-level duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX62,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX63,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX64,NA,development time,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX65,NA,development time,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX66,NA,development time,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX67,NA,development time,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX68,NA,development time,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX69,NA,development time,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX70,NA,development time,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX71,NA,development time,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX72,NA,development time,individual-level duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX73,NA,development time,individual-level duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX74,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX75,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX76,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX77,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX78,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX79,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX80,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX81,NA,development time,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX82,NA,development time,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX83,NA,development time,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX84,NA,development time,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX85,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX86,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX87,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX88,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX89,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX90,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX91,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX92,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX93,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX94,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX95,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX96,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX97,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX98,NA,development time,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX99,NA,development time,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX100,NA,development time,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX101,NA,development time,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX102,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX103,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX104,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX105,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX106,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX107,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX108,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX109,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX110,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX111,NA,development time,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX112,NA,development time,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX113,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX114,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX115,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX116,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX117,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX118,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX119,NA,development time,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX120,NA,development time,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX121,NA,development time,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX122,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX123,NA,development time,individual-level duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX124,NA,development time,individual-level duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX125,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX126,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX127,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX128,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX129,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX130,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX131,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX132,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX133,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX134,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX135,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX136,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX137,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX138,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX139,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX140,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX141,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX142,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX143,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX144,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX145,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX146,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX147,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX148,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX149,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX150,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX151,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX152,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX153,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX154,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX155,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX156,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX157,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX158,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX159,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX160,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX161,NA,development time,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX162,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX163,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX164,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX165,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX166,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX167,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX168,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX169,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX170,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX171,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX172,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX173,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX174,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX175,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX176,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX177,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX178,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX179,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX180,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX181,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX182,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX183,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX184,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX185,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX186,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX187,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX188,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX189,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX190,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX191,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX192,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX193,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX194,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX195,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX196,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX197,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX198,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX199,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX200,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX201,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX202,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX203,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX204,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX205,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX206,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX207,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX208,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX209,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX210,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX211,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX212,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX213,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX214,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX215,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX216,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX217,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX218,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX219,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX220,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX221,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX222,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX223,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX2,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX3,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX4,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX5,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX6,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX7,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX8,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX9,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX10,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX11,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX12,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX13,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX14,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX15,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX16,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX17,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX18,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX19,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX20,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX21,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX22,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX23,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX24,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX25,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX26,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX27,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX28,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX29,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX30,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX31,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX32,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX33,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX34,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX35,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX36,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX37,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX38,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX39,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX40,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX41,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX42,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX43,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX44,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX45,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX46,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX47,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX48,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX49,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX50,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX51,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX52,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX53,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX54,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX55,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX56,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX57,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX58,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX59,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX60,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX61,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX62,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX63,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX64,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX65,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX66,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX67,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX68,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX69,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX70,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX71,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX72,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX73,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX74,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX75,NA,longevity,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX76,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX77,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX78,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX79,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX80,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX81,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX82,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX83,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX84,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX85,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX86,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX87,NA,longevity,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX88,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX89,NA,longevity,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX90,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX91,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX92,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX93,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX94,NA,longevity,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX95,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX96,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX97,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX98,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX99,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX100,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX101,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX102,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX103,NA,longevity,individual-level duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX104,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX105,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX106,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX107,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX108,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX109,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX110,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX111,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX112,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX113,NA,longevity,individual-level duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX114,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX115,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX116,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX117,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX118,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX119,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX120,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX121,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX122,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX123,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX124,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX125,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX126,NA,longevity,individual-level duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX127,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX128,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX129,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX130,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX131,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX132,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX133,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX134,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX135,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX136,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX137,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX138,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX139,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX140,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX141,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX142,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX143,NA,longevity,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX144,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX145,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX146,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX147,NA,longevity,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX148,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX149,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX150,NA,longevity,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX151,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX152,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX153,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX154,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX155,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX156,NA,longevity,individual-level duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX157,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX158,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX159,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX160,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX161,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX162,NA,longevity,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX163,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX164,NA,longevity,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX165,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX166,NA,longevity,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX167,NA,longevity,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX168,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX169,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX170,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX171,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX172,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX173,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX174,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX175,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX176,NA,longevity,individual-level duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX177,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX178,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX179,NA,longevity,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX180,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX181,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX182,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX183,NA,longevity,individual-level duration of life stage,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX184,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX185,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX186,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX187,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX188,NA,longevity,individual-level duration of life stage,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX189,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX190,NA,longevity,individual-level duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX191,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX192,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX193,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX194,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX195,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX196,NA,longevity,individual-level duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX197,NA,longevity,individual-level duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX198,NA,longevity,individual-level duration of life stage,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX199,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX200,NA,longevity,individual-level duration of life stage,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX201,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX202,NA,longevity,individual-level duration of life stage,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX203,NA,longevity,individual-level duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX204,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX205,NA,longevity,individual-level duration of life stage,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX206,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX207,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX208,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX209,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX210,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX211,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX212,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX213,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX214,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX215,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX216,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX217,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX218,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX219,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX220,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX221,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX222,NA,longevity,individual-level duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX223,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX224,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX225,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX226,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX227,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX228,NA,longevity,individual-level duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX229,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX230,NA,longevity,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX231,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX232,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX233,NA,longevity,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX234,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX235,NA,longevity,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX236,NA,longevity,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX237,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX238,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX239,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX240,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX241,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX242,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX243,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX244,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX245,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX246,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX247,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX248,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX249,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX250,NA,longevity,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX251,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX252,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX253,NA,longevity,individual-level duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX254,NA,longevity,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX255,NA,longevity,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX256,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX257,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX258,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX259,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX260,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX261,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX262,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX263,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX264,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX265,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX266,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX267,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX268,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX269,NA,longevity,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX270,NA,longevity,individual-level duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX271,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX272,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX273,NA,longevity,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX274,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX275,NA,longevity,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX276,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX277,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX278,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX279,NA,longevity,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX280,NA,longevity,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX281,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX282,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX283,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX284,NA,longevity,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX285,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX286,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX287,NA,longevity,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX288,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX289,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX290,NA,longevity,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX291,NA,longevity,individual-level duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX292,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX293,NA,longevity,individual-level duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX294,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX295,NA,longevity,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX296,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX297,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX298,NA,longevity,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX299,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX300,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX301,NA,longevity,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX302,NA,longevity,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX303,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX304,NA,longevity,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX305,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX306,NA,longevity,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX307,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX308,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX309,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX310,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX311,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX312,NA,longevity,individual-level duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX313,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX314,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX315,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX316,NA,longevity,individual-level duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX317,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX318,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX319,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX320,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX321,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX322,NA,longevity,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX323,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX324,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX325,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX326,NA,longevity,individual-level duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX327,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX328,NA,longevity,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX329,NA,longevity,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX330,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX331,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX332,NA,longevity,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX333,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX334,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX335,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX336,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX337,NA,longevity,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX338,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX339,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX340,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX341,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX342,NA,longevity,individual-level duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX343,NA,longevity,individual-level duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX344,NA,longevity,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX345,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX346,NA,longevity,individual-level duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX347,NA,longevity,individual-level duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX348,NA,longevity,individual-level duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX349,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX350,NA,longevity,individual-level duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX351,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX352,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX353,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX354,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX355,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX356,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX357,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX358,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX359,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX360,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX361,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX362,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX363,NA,longevity,individual-level duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX364,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX365,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX366,NA,longevity,individual-level duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX367,NA,longevity,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX368,NA,longevity,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX369,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX370,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX371,NA,longevity,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX372,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX373,NA,longevity,individual-level duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX374,NA,longevity,individual-level duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX375,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX376,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX377,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX378,NA,longevity,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX379,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX380,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX381,NA,longevity,individual-level duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX382,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX383,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX384,NA,longevity,individual-level duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX385,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX386,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX387,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX388,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX389,NA,longevity,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX390,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX391,NA,longevity,individual-level duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX392,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX393,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX394,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX395,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX396,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX397,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX398,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX399,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX400,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX401,NA,longevity,individual-level duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX402,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX403,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX404,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX405,NA,longevity,individual-level duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX406,NA,longevity,individual-level duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX407,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX408,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX409,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX410,NA,longevity,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX411,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX412,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX413,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX414,NA,longevity,individual-level duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX415,NA,longevity,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX416,NA,longevity,individual-level duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX417,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX418,NA,longevity,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX419,NA,longevity,individual-level duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX420,NA,longevity,individual-level duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX421,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX422,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX423,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX424,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX425,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX426,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX427,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX428,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX429,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX430,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX431,NA,longevity,individual-level duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX432,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX433,NA,longevity,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX434,NA,longevity,individual-level duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX435,NA,longevity,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX436,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX437,NA,longevity,individual-level duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX438,NA,longevity,individual-level duration of life stage,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX439,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX440,NA,longevity,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX441,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX442,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX443,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX444,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX445,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX446,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX447,NA,longevity,individual-level duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX448,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX449,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX450,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX451,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX452,NA,longevity,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX453,NA,longevity,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX454,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX455,NA,longevity,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX456,NA,longevity,individual-level duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX457,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX458,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX459,NA,longevity,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX460,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX461,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX462,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX463,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX464,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX465,NA,longevity,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX466,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX467,NA,longevity,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX468,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX469,NA,longevity,individual-level duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX470,NA,longevity,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX471,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX472,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX473,NA,longevity,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX474,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX475,NA,longevity,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX476,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX477,NA,longevity,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX478,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX479,NA,longevity,individual-level duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX480,NA,longevity,individual-level duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX481,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX482,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX483,NA,longevity,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX484,NA,longevity,individual-level duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX485,NA,longevity,individual-level duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX486,NA,longevity,individual-level duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX487,NA,longevity,individual-level duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX488,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX489,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX490,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX491,NA,longevity,individual-level duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX492,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX493,NA,longevity,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX494,NA,longevity,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX495,NA,longevity,individual-level duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX496,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX497,NA,longevity,individual-level duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX498,NA,longevity,individual-level duration of life stage,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX499,NA,longevity,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX500,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX501,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX502,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX503,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX504,NA,longevity,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX505,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX506,NA,longevity,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX507,NA,longevity,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX508,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX509,NA,longevity,individual-level duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX510,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX511,NA,longevity,individual-level duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX512,NA,longevity,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX513,NA,longevity,individual-level duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX514,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX515,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX516,NA,longevity,individual-level duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX517,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX518,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX519,NA,longevity,individual-level duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX520,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX521,NA,longevity,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX522,NA,longevity,individual-level duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX523,NA,longevity,individual-level duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX524,NA,longevity,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX525,NA,longevity,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX526,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX527,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX528,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX529,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX530,NA,longevity,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX531,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX532,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX533,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX534,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX535,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX536,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX537,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX538,NA,longevity,individual-level duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX539,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX540,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX541,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX542,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX543,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX544,NA,longevity,individual-level duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX545,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX546,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX547,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX548,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX549,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX550,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX551,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX552,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX553,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX554,NA,longevity,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX555,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX556,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX557,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX558,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX559,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX560,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX561,NA,longevity,individual-level duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX562,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX563,NA,longevity,individual-level duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX564,NA,longevity,individual-level duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX565,NA,longevity,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX566,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX567,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX568,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX569,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX570,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX571,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX572,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX573,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX574,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX575,NA,longevity,individual-level duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX576,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX577,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX578,NA,longevity,individual-level duration of life stage,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX579,NA,longevity,individual-level duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX580,NA,longevity,individual-level duration of life stage,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX581,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX582,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX583,NA,longevity,individual-level duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX584,NA,longevity,individual-level duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX585,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX586,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX587,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX588,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX589,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX590,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX591,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX592,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX593,NA,longevity,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX594,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX595,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX596,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX597,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX598,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX599,NA,longevity,individual-level duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX600,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX601,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX602,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX603,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX604,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX605,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX606,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX607,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX608,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX609,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX610,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX611,NA,longevity,individual-level duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX612,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX613,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX614,NA,longevity,individual-level duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX615,NA,longevity,individual-level duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX616,NA,longevity,individual-level duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX617,NA,longevity,individual-level duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX618,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX619,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX620,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX621,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX622,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX623,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX624,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX625,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX626,NA,longevity,individual-level duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX627,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX628,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX629,NA,longevity,individual-level duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX630,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX631,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX632,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX633,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX634,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX635,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX636,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX637,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX638,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX639,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX640,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX641,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX642,NA,longevity,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX643,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX644,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX645,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX646,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX647,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX648,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX649,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX650,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX651,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX652,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX653,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX654,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX655,NA,longevity,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX656,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX657,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX658,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX659,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX660,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX661,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX662,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX663,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX664,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX665,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX666,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX667,NA,longevity,individual-level duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX668,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX669,NA,longevity,individual-level duration of life stage,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX670,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX671,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX672,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX673,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX674,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX675,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX676,NA,longevity,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX677,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX678,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX679,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX680,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX681,NA,longevity,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX682,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX683,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX684,NA,longevity,individual-level duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX685,NA,longevity,individual-level duration of life stage,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX686,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX687,NA,longevity,individual-level duration of life stage,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX688,NA,longevity,individual-level duration of life stage,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX689,NA,longevity,individual-level duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX690,NA,longevity,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX691,NA,longevity,individual-level duration of life stage,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX692,NA,longevity,individual-level duration of life stage,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX693,NA,longevity,individual-level duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX694,NA,longevity,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX695,NA,longevity,individual-level duration of life stage,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX696,NA,longevity,individual-level duration of life stage,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX697,NA,longevity,individual-level duration of life stage,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX698,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX699,NA,longevity,individual-level duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX700,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX701,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX702,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX703,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX704,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX705,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX706,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX707,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX708,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX709,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX710,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX711,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX712,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX713,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX714,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX715,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX716,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX717,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX718,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX719,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX720,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX721,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX722,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX723,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX724,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX725,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX726,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX727,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX728,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX729,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX730,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX731,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX732,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX733,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX734,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX735,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX736,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX737,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX738,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX739,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX740,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX741,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX742,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX743,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX744,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX745,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX746,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX747,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX748,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX749,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX750,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX751,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX752,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX753,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX754,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX755,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX756,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX757,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX758,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX759,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX760,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX761,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX762,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX763,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX764,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX765,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX766,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX767,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX768,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX769,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX770,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX771,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX772,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX773,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX774,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX775,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX776,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX777,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX778,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX779,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX780,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX781,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX782,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX783,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX784,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX785,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX786,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX787,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX788,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX789,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX790,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX791,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX792,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX793,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX794,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX795,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX796,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX797,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX798,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX799,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX800,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX801,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX802,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX803,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX804,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX805,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX806,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX807,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX808,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX809,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX810,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX811,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX812,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX813,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX814,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX815,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX816,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX817,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX818,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX819,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX820,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX821,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX822,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX823,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX824,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX825,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX826,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX827,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX828,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX829,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX830,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX831,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX832,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX833,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX834,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX835,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX836,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX837,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX838,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX839,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX840,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX841,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX842,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX843,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX844,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX845,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX846,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX847,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX848,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX849,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX850,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX851,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX852,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX853,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX854,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX855,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX856,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX857,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX858,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX859,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX860,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX861,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX862,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX863,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX864,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX865,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX866,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX867,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX868,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX869,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX870,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX871,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX872,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX873,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX874,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX875,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX876,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX877,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX878,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX879,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX880,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX881,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX882,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX883,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX884,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX885,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX886,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX887,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX888,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX889,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX890,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX891,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX892,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX893,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX894,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX895,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX896,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX897,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX898,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX899,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX900,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX901,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX902,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX903,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX904,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX905,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX906,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX907,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX908,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX909,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX910,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX911,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX912,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX913,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX914,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX915,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX916,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX917,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX918,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX919,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX920,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX921,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX922,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX923,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX924,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX925,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX926,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX927,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX928,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX929,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX930,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX931,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX932,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX933,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX934,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX935,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX936,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX937,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX938,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX939,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX940,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX941,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX942,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX943,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX944,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX945,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX946,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX947,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX948,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX949,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX950,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX951,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX952,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX953,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX954,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX955,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX956,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX957,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX958,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX959,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX960,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX961,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX962,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX963,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX964,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX965,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX966,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX967,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX968,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX969,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX970,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX971,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX972,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX973,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX974,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX975,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX976,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX977,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX978,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX979,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX980,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX981,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX982,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX983,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX984,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX985,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX986,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX987,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX988,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX989,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX990,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX991,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX992,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX993,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX994,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX995,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX996,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX997,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX998,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX999,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1000,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1001,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1002,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1003,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1004,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1005,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1006,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1007,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1008,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1009,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1010,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1011,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1012,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1013,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1014,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1015,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1016,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1017,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1018,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1019,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1020,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1021,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1022,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1023,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1024,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1025,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1026,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1027,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1028,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1029,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1030,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1031,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1032,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1033,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1034,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1035,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1036,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1037,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1038,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1039,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1040,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1041,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1042,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1043,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1044,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1045,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1046,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1047,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1048,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1049,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1050,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1051,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1052,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1053,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1054,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1055,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1056,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1057,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1058,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1059,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1060,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1061,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1062,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1063,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1064,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1065,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1066,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1067,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1068,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1069,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1070,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1071,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1072,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1073,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1074,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1075,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1076,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1077,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1078,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1079,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1080,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1081,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1082,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1083,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1084,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1085,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1086,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1087,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1088,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1089,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1090,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1091,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1092,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1093,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1094,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1095,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1096,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1097,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1098,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1099,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1100,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1101,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1102,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1103,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1104,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1105,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1106,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1107,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1108,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1109,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1110,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1111,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1112,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1113,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1114,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1115,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1116,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1117,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1118,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1119,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1120,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1121,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1122,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1123,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1124,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1125,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1126,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1127,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1128,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1129,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1130,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1131,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1132,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1133,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1134,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1135,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1136,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1137,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1138,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1139,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1140,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1141,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1142,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1143,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1144,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1145,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1146,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1147,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1148,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1149,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1150,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1151,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1152,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1153,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1154,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1155,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1156,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1157,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1158,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1159,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1160,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1161,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1162,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1163,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1164,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1165,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1166,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1167,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1168,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1169,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1170,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1171,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1172,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1173,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1174,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1175,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1176,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1177,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1178,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1179,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1180,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1181,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1182,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1183,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1184,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1185,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1186,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1187,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1188,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1189,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1190,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1191,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1192,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1193,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1194,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1195,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1196,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1197,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1198,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1199,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1200,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1201,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1202,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1203,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1204,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1205,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1206,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1207,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1208,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1209,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1210,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1211,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1212,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1213,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1214,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1215,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1216,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1217,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1218,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1219,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1220,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1221,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1222,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1223,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1224,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1225,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1226,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1227,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1228,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1229,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1230,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1231,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1232,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1233,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1234,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1235,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1236,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1237,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1238,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1239,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1240,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1241,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1242,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1243,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1244,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1245,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1246,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1247,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1248,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1249,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1250,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1251,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1252,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1253,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1254,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1255,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1256,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1257,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1258,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1259,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1260,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1261,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1262,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1263,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1264,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1265,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1266,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1267,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1268,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1269,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1270,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1271,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1272,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1273,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1274,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1275,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1276,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1277,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1278,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1279,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1280,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1281,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1282,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1283,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1284,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1285,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1286,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1287,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1288,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1289,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1290,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1291,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1292,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1293,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1294,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1295,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1296,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1297,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1298,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1299,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1300,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1301,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1302,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1303,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1304,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1305,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1306,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1307,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1308,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1309,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1310,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1311,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1312,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1313,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1314,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1315,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1316,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1317,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1318,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1319,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1320,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1321,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1322,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1323,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1324,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1325,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1326,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1327,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1328,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1329,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1330,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1331,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1332,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1333,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1334,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1335,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1336,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1337,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1338,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1339,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1340,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1341,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1342,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1343,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1344,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1345,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1346,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1347,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1348,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1349,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1350,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1351,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1352,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1353,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1354,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1355,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1356,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1357,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1358,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1359,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1360,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1361,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1362,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1363,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1364,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1365,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1366,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1367,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1368,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1369,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1370,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1371,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1372,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1373,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1374,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1375,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1376,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1377,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1378,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1379,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1380,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1381,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1382,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1383,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1384,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1385,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1386,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1387,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1388,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1389,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1390,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1391,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1392,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1393,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1394,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1395,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1396,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1397,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1398,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1399,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1400,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1401,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1402,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1403,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1404,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1405,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1406,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1407,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1408,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1409,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1410,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1411,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1412,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1413,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1414,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1415,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1416,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1417,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1418,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1419,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1420,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1421,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1422,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1423,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1424,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1425,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1426,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1427,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1428,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1429,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1430,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1431,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1432,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1433,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1434,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1435,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1436,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1437,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1438,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1439,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1440,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1441,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1442,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1443,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1444,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1445,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1446,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1447,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1448,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1449,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1450,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1451,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1452,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1453,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1454,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1455,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1456,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1457,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1458,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1459,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1460,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1461,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1462,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1463,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1464,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1465,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1466,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1467,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1468,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1469,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1470,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1471,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1472,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1473,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1474,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1475,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1476,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1477,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1478,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1479,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1480,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1481,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1482,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1483,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1484,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1485,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1486,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1487,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1488,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1489,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1490,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1491,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1492,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1493,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1494,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1495,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1496,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1497,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1498,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1499,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1500,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1501,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1502,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1503,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1504,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1505,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1506,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1507,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1508,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1509,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1510,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1511,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1512,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1513,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1514,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1515,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1516,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1517,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1518,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1519,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1520,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1521,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1522,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1523,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1524,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1525,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1526,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1527,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1528,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1529,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1530,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1531,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1532,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1533,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1534,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1535,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1536,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1537,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1538,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1539,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1540,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1541,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1542,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1543,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1544,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1545,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1546,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1547,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1548,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1549,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1550,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1551,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1552,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1553,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1554,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1555,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1556,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1557,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1558,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1559,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1560,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1561,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1562,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1563,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1564,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1565,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1566,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1567,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1568,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1569,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1570,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1571,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1572,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1573,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1574,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1575,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1576,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1577,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1578,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1579,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1580,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1581,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1582,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1583,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1584,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1585,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1586,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1587,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1588,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1589,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1590,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1591,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1592,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1593,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1594,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1595,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1596,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1597,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1598,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1599,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1600,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1601,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1602,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1603,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1604,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1605,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1606,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1607,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1608,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1609,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1610,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1611,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1612,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1613,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1614,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1615,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX1,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX2,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX3,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX4,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX5,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX6,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX7,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX8,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX9,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX10,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX11,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX12,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX13,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX14,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX15,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX16,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX17,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX18,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX19,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX20,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX21,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX22,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX23,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX24,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX25,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX26,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX27,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX28,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX29,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX30,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX31,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX32,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX33,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX34,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX35,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX36,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX37,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX38,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX39,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX40,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX41,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX42,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX43,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX44,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX45,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX46,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX47,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX48,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX49,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX50,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX51,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX52,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX53,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX54,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX55,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX56,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX57,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX58,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX59,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX60,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX61,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX62,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX63,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX64,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX65,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX66,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX67,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX68,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX69,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX70,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX71,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX72,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX73,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX74,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX75,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX76,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX77,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX78,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX79,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX80,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX81,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX82,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX83,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX84,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX85,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX86,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX87,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX88,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX89,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX90,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX91,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX92,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX93,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX94,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX95,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX96,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX97,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX98,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX99,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX100,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX101,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX102,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX103,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX104,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX105,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX106,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX107,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX108,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX109,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX110,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX111,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX112,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX113,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX114,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX115,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX116,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX117,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX118,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX119,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX120,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX121,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX122,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX123,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX124,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX125,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX126,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX127,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX128,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX129,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX130,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX131,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX132,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX133,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX134,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX135,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX136,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX137,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX138,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX139,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX140,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX141,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX142,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX143,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX144,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX145,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX146,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX147,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX148,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX149,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX150,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX151,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX152,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX153,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX154,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX155,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX156,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX157,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX158,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX159,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX160,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX161,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX162,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX163,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX164,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX165,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX166,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX167,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX168,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX169,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX170,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX171,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX172,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX173,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX174,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX175,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX176,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX177,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX178,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX179,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX180,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX181,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX182,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX183,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX184,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX185,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX186,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX187,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX188,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX189,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX190,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX191,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX192,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX193,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX194,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX195,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX196,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX197,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX198,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX199,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX200,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX201,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX202,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX203,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX204,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX205,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX206,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX207,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX208,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX209,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX210,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX211,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX212,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX213,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX214,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX215,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX216,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX217,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX218,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX219,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX220,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX221,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX222,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX223,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX224,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX225,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX226,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX227,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX228,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX229,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX230,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX231,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX232,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX233,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX234,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX235,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX236,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX237,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX238,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX239,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX240,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX241,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX242,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX243,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX244,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX245,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX246,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX247,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX248,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX249,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX250,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX251,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX252,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX253,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX254,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX255,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX256,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX257,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX258,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX259,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX260,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX261,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX262,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX263,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX264,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX265,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX266,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX267,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX268,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX269,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX270,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX271,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX272,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX273,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX274,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX275,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX276,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX277,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX278,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX279,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX280,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX281,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX282,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX283,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX284,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX285,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX286,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX287,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX288,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX289,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX290,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX291,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX292,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX293,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX294,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX295,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX296,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX297,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX298,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX299,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX300,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX301,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX302,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX303,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX304,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX305,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX306,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX307,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX308,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX309,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX310,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX311,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX312,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX313,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX314,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX315,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX316,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX317,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX318,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX319,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX320,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX321,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX322,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX323,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX324,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX325,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX326,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX327,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX328,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX329,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX330,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX331,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX332,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX333,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX334,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX335,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX336,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX337,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX338,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX339,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX340,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX341,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX342,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX343,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX344,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX345,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX346,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX347,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX348,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX349,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX350,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX351,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX352,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX353,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX354,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX355,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX356,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX357,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX358,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX359,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX360,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX361,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX362,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX363,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX364,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX365,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX366,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX367,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX368,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX369,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX370,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX371,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX372,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX373,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX374,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX375,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX376,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX377,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX378,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX379,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX380,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX381,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX382,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX383,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX384,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX385,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX386,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX387,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX388,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX389,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX390,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX391,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX392,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX393,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX394,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX395,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX396,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX397,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX398,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX399,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX400,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX401,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX402,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX403,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX404,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX405,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX406,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX407,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX408,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX409,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX410,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX411,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX412,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX413,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX414,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX415,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX416,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX417,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX418,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX419,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX420,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX421,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX422,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX423,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX424,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX425,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX426,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX427,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX428,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX429,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX430,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX431,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX432,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX433,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX434,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX435,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX436,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX437,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX438,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX439,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX440,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX441,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX442,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX443,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX444,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX445,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX446,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX447,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX448,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX449,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX450,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX451,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX452,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX453,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX454,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX455,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX456,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX457,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX458,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX459,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX460,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX461,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX462,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX463,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX464,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX465,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX466,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX467,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX468,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX469,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX470,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX471,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX472,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX473,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX474,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX475,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX476,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX477,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX478,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX479,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX480,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX481,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX482,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX483,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX484,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX485,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX486,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX487,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX488,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX489,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX490,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX491,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX492,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX493,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX494,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX495,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX496,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX497,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX498,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX499,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX500,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX501,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX502,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX503,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX504,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX505,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX506,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX507,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX508,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX509,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX510,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX511,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX512,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX513,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX514,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX515,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX516,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX517,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX518,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX519,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX520,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX521,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX522,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX523,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX524,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX525,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX526,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX527,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX528,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX529,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX530,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX531,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX532,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX533,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX534,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX535,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX536,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX537,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX538,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX539,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX540,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX541,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX542,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX543,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX544,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX545,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX546,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX547,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX548,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX549,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX550,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX551,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX552,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX553,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX554,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX555,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX556,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX557,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX558,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX559,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX560,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX561,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX562,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX563,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX564,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX565,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX566,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX567,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX568,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX569,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX570,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX571,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX572,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX573,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX574,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX575,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX576,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX577,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX578,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX579,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX580,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX581,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX582,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX583,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX584,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX585,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX586,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX587,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX588,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX589,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX590,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX591,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX592,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX593,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX594,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX595,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX596,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX597,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX598,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX599,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX600,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX601,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX602,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX603,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX604,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX605,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX606,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX607,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX608,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX609,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX610,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX611,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX612,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX613,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX614,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX615,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX616,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX617,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX618,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX619,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX620,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX621,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX622,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX623,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX624,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX625,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX626,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX627,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX628,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX629,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX630,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX631,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX632,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX633,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX634,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX635,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX636,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX637,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX638,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX639,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX640,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX641,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX642,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX643,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX644,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX645,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX646,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX647,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX648,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX649,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX650,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX651,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX652,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX653,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX654,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX655,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX656,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX657,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX658,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX659,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX660,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX661,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX662,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX663,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX664,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX665,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX666,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX667,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX668,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX669,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX670,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX671,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX672,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX673,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX674,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX675,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX676,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX677,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX678,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX679,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX680,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX681,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX682,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX683,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX684,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX685,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX686,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX687,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX688,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX689,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX690,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX691,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX692,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX693,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX694,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX695,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX696,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX697,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX698,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX699,NA,juvenile life span,individual-level duration from hatching to death or adult eclosion,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,PHX59,longevity,mean duration of life stage,32.8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,90,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32.2,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 50% survival of individuals (LT50). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,PHX59,longevity,mean duration of life stage,37.8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32.2,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 50% survival of individuals (LT50). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,PHX59,longevity,mean duration of life stage,28.4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,30,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32.2,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 50% survival of individuals (LT50). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,PHX59,longevity,mean duration of life stage,46.3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,90,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32.2,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 90% survival of individuals (LT90). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,PHX59,longevity,mean duration of life stage,49.7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32.2,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 90% survival of individuals (LT90). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,PHX59,longevity,mean duration of life stage,46,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,30,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32.2,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 90% survival of individuals (LT90). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,PHX59,longevity,mean duration of life stage,41.3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26.5,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 50% survival of individuals (LT50). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,PHX59,longevity,mean duration of life stage,42.1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26.5,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 50% survival of individuals (LT50). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,PHX59,longevity,mean duration of life stage,48.3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26.5,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 50% survival of individuals (LT50). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,PHX59,longevity,mean duration of life stage,65.4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26.5,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 90% survival of individuals (LT90). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,PHX59,longevity,mean duration of life stage,38.2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,90,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26.5,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 50% survival of individuals (LT50). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,PHX59,longevity,mean duration of life stage,35.2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26.5,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 50% survival of individuals (LT50). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,PHX59,longevity,mean duration of life stage,50.4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,30,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26.5,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 50% survival of individuals (LT50). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,PHX59,longevity,mean duration of life stage,54.7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,90,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26.5,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 90% survival of individuals (LT90). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,PHX59,longevity,mean duration of life stage,47.1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26.5,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 90% survival of individuals (LT90). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,PHX59,longevity,mean duration of life stage,74,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,30,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26.5,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 90% survival of individuals (LT90). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,PHX59,longevity,mean duration of life stage,60.6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26.5,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 90% survival of individuals (LT90). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,PHX59,longevity,mean duration of life stage,56.4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,90,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,15.5,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 50% survival of individuals (LT50). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,PHX59,longevity,mean duration of life stage,41.8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,15.5,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 50% survival of individuals (LT50). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,PHX59,longevity,mean duration of life stage,56.6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,30,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,15.5,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 50% survival of individuals (LT50). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,PHX59,longevity,mean duration of life stage,69.9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26.5,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 90% survival of individuals (LT90). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,PHX59,longevity,mean duration of life stage,58.7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22.2,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 50% survival of individuals (LT50). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,PHX59,longevity,mean duration of life stage,82,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,90,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,15.5,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 90% survival of individuals (LT90). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,PHX59,longevity,mean duration of life stage,61,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,15.5,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 90% survival of individuals (LT90). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,PHX59,longevity,mean duration of life stage,77,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,30,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,15.5,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 90% survival of individuals (LT90). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,PHX59,longevity,mean duration of life stage,84.1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22.2,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 90% survival of individuals (LT90). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,PHX591,longevity,mean duration of life stage,10.6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,30,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes togoi,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,togoi,adult,female,32.2,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 50% survival of individuals (LT50). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,PHX591,longevity,mean duration of life stage,24.9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,30,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes togoi,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,togoi,adult,female,32.2,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 90% survival of individuals (LT90). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,PHX591,longevity,mean duration of life stage,18.9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,30,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes togoi,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,togoi,adult,female,26.5,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 50% survival of individuals (LT50). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,PHX591,longevity,mean duration of life stage,29.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,30,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes togoi,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,togoi,adult,female,26.5,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 90% survival of individuals (LT90). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,PHX591,longevity,mean duration of life stage,44.4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,30,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes togoi,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,togoi,adult,female,15.5,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 50% survival of individuals (LT50). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,PHX591,longevity,mean duration of life stage,67,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,30,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes togoi,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,togoi,adult,female,15.5,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 90% survival of individuals (LT90). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,PHX591,longevity,mean duration of life stage,10.4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes togoi,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,togoi,adult,female,32.2,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 50% survival of individuals (LT50). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,PHX591,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes togoi,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,togoi,adult,female,32.2,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 90% survival of individuals (LT90). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,PHX591,longevity,mean duration of life stage,20.6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes togoi,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,togoi,adult,female,26.5,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 50% survival of individuals (LT50). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,PHX591,longevity,mean duration of life stage,28.6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes togoi,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,togoi,adult,female,26.5,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 90% survival of individuals (LT90). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,PHX591,longevity,mean duration of life stage,30.2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes togoi,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,togoi,adult,female,15.5,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 50% survival of individuals (LT50). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,PHX591,longevity,mean duration of life stage,45.2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,60,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes togoi,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,togoi,adult,female,15.5,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 90% survival of individuals (LT90). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,PHX591,longevity,mean duration of life stage,22.1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes togoi,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,togoi,adult,female,26.5,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 50% survival of individuals (LT50). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,PHX591,longevity,mean duration of life stage,23.3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes togoi,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,togoi,adult,female,26.5,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 50% survival of individuals (LT50). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,PHX591,longevity,mean duration of life stage,25.2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes togoi,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,togoi,adult,female,26.5,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 50% survival of individuals (LT50). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,PHX591,longevity,mean duration of life stage,33.7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes togoi,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,togoi,adult,female,26.5,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 90% survival of individuals (LT90). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,PHX591,longevity,mean duration of life stage,36.4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes togoi,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,togoi,adult,female,26.5,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 90% survival of individuals (LT90). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,PHX591,longevity,mean duration of life stage,38.4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes togoi,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,togoi,adult,female,26.5,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 90% survival of individuals (LT90). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,PHX591,longevity,mean duration of life stage,44.9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes togoi,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,togoi,adult,female,22.2,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 50% survival of individuals (LT50). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,PHX591,longevity,mean duration of life stage,57.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,80,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes togoi,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,togoi,adult,female,22.2,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 90% survival of individuals (LT90). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,PHX591,longevity,mean duration of life stage,11.4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,90,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes togoi,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,togoi,adult,female,32.2,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 50% survival of individuals (LT50). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,PHX591,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,90,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes togoi,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,togoi,adult,female,32.2,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 90% survival of individuals (LT90). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,PHX591,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,90,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes togoi,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,togoi,adult,female,26.5,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 50% survival of individuals (LT50). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,PHX591,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,90,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes togoi,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,togoi,adult,female,26.5,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 90% survival of individuals (LT90). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,PHX591,longevity,mean duration of life stage,35.9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,90,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes togoi,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,togoi,adult,female,15.5,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 50% survival of individuals (LT50). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,PHX591,longevity,mean duration of life stage,57.4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,relative humidity,NA,90,%,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes togoi,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,togoi,adult,female,15.5,Celsius,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Hylton 1969. Studies on longevity of adult Eretmapodites chrysogaster Aedes togoi and Aedes (Stegomyia) albopictus females (Diptera: Culicidae). J Med. Ent. 6: 2,10.1093/jmedent/6.2.147,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the mean number of days for 90% survival of individuals (LT90). interactor1number is the midpoint of the range of individuals that were used for each experimental treatment,TRUE,01/01/1969
NA,MT1,mortality,percent not surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L1,NA,2,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L1,NA,4,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,10,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L1,NA,6,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L1,NA,8,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L1,NA,10,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L1,NA,12,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L1,NA,16,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L1,NA,20,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L1,NA,24,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L1,NA,28,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L1,NA,32,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,18,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L1,NA,36,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,25,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L1,NA,38,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L1,NA,40,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L1,NA,42,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,30,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,108,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L2,NA,6,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,22,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,114,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L2,NA,8,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,20,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,114,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L2,NA,10,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,14,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,113,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L2,NA,12,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,118,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L2,NA,16,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,118,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L2,NA,20,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L2,NA,24,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L2,NA,28,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L2,NA,32,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,24,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,99,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L2,NA,36,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,94,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,90,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L2,NA,38,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L3,NA,6,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L3,NA,8,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,20,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,91,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L3,NA,10,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,20,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,97,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L3,NA,12,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,14,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,108,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L3,NA,16,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,112,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L3,NA,20,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,116,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L3,NA,24,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,116,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L3,NA,28,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,114,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L3,NA,32,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,35,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L3,NA,36,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L4,NA,6,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L4,NA,8,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,36,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,73,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L4,NA,10,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,31,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,78,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L4,NA,12,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,22,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,92,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L4,NA,16,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,12,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,104,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L4,NA,20,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,108,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L4,NA,24,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,15,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,107,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L4,NA,28,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,19,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,104,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L4,NA,32,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,51,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,49,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L4,NA,36,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,21,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,47,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,pupal,NA,10,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,15,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,54,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,pupal,NA,12,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,10,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,73,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,pupal,NA,16,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,92,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,pupal,NA,20,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,pupal,NA,24,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,91,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,pupal,NA,28,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,10,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,84,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,pupal,NA,32,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percent not surviving life stage,13,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,pupal,NA,36,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MT1,mortality,percentage not surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,juvenile (L1 to adult emergence),NA,6,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that survived the life stage from an initial number of n=120 at the start of the experiment,TRUE,01/01/1972
NA,MT1,mortality,percentage not surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,juvenile (L1 to adult emergence),NA,8,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that survived the life stage from an initial number of n=120 at the start of the experiment,TRUE,01/01/1972
NA,MT1,mortality,percentage not surviving life stage,69,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,37,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,juvenile (L1 to adult emergence),NA,10,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that survived the life stage from an initial number of n=120 at the start of the experiment,TRUE,01/01/1972
NA,MT1,mortality,percentage not surviving life stage,62,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,46,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,juvenile (L1 to adult emergence),NA,12,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that survived the life stage from an initial number of n=120 at the start of the experiment,TRUE,01/01/1972
NA,MT1,mortality,percentage not surviving life stage,45,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,66,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,juvenile (L1 to adult emergence),NA,16,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that survived the life stage from an initial number of n=120 at the start of the experiment,TRUE,01/01/1972
NA,MT1,mortality,percentage not surviving life stage,28,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,86,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,juvenile (L1 to adult emergence),NA,20,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that survived the life stage from an initial number of n=120 at the start of the experiment,TRUE,01/01/1972
NA,MT1,mortality,percentage not surviving life stage,23,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,93,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,juvenile (L1 to adult emergence),NA,24,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that survived the life stage from an initial number of n=120 at the start of the experiment,TRUE,01/01/1972
NA,MT1,mortality,percentage not surviving life stage,28,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,86,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,juvenile (L1 to adult emergence),NA,28,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that survived the life stage from an initial number of n=120 at the start of the experiment,TRUE,01/01/1972
NA,MT1,mortality,percentage not surviving life stage,37,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,76,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,juvenile (L1 to adult emergence),NA,32,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that survived the life stage from an initial number of n=120 at the start of the experiment,TRUE,01/01/1972
NA,MT1,mortality,percentage not surviving life stage,83,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,21,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,juvenile (L1 to adult emergence),NA,36,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that survived the life stage from an initial number of n=120 at the start of the experiment,TRUE,01/01/1972
PHXX224,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX225,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX226,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX227,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX228,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX229,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.367,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX230,NA,development time,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX231,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX232,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX233,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX234,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX235,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX236,NA,development time,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX237,NA,development time,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX238,NA,development time,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX239,NA,development time,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX240,NA,development time,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX241,NA,development time,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX242,NA,development time,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX243,NA,development time,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX244,NA,development time,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX245,NA,development time,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX246,NA,development time,individual-level duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX247,NA,development time,individual-level duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX248,NA,development time,individual-level duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX249,NA,development time,individual-level duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MT1,mortality,percent not surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L3,NA,38,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
PHXX250,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX251,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX252,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX253,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX254,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX255,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX256,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX257,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX258,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX259,NA,development time,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MT1,mortality,percent not surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L4,NA,38,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
PHXX260,NA,development time,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX261,NA,development time,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX262,NA,development time,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX263,NA,development time,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX264,NA,development time,individual-level duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX265,NA,development time,individual-level duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX266,NA,development time,individual-level duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX267,NA,development time,individual-level duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX268,NA,development time,individual-level duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX269,NA,development time,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX270,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX271,NA,development time,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX272,NA,development time,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX273,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX274,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX275,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX276,NA,development time,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX277,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MT1,mortality,percentage not surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,juvenile (L1 to adult emergence),NA,38,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that survived the life stage from an initial number of n=120 at the start of the experiment,TRUE,01/01/1972
PHXX278,NA,development time,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX279,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX280,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX281,NA,development time,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX282,NA,development time,individual-level duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX283,NA,development time,individual-level duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX284,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX285,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX286,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX287,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX288,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX289,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX290,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,JIA001,survival,percent surviving life stage (number of larvae over initial number of eggs),67.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guangzhou China,colony (F20),NA,0,decimal,23.116667,113.266667,Aedes albopictus,NA,NA,NA,821,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,23,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jian et al. 2023. Effects of constant temperature and daily fluctuating temperature on the transovarial transmission and life cycle of Aedes albopictus infected with Zika virus. Front. Microbiol. 13:1075362.,10.3389/fmicb.2022.1075362,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2023
NA,JIA001,survival,percent surviving life stage (number of larvae over initial number of eggs),46.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guangzhou China,colony (F20),NA,0,decimal,23.116667,113.266667,Aedes albopictus,NA,NA,NA,259,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,31,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jian et al. 2023. Effects of constant temperature and daily fluctuating temperature on the transovarial transmission and life cycle of Aedes albopictus infected with Zika virus. Front. Microbiol. 13:1075362.,10.3389/fmicb.2022.1075362,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2023
NA,JIA002,survival,percent surviving life stage (number of pupae divided by number of larvae),63.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guangzhou China,colony (F20),NA,0,decimal,23.116667,113.266667,Aedes albopictus,NA,NA,NA,521,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,23,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jian et al. 2023. Effects of constant temperature and daily fluctuating temperature on the transovarial transmission and life cycle of Aedes albopictus infected with Zika virus. Front. Microbiol. 13:1075362.,10.3389/fmicb.2022.1075362,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2023
NA,JIA002,survival,percent surviving life stage (number of pupae divided by number of larvae),81.1,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guangzhou China,colony (F20),NA,0,decimal,23.116667,113.266667,Aedes albopictus,NA,NA,NA,210,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,31,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jian et al. 2023. Effects of constant temperature and daily fluctuating temperature on the transovarial transmission and life cycle of Aedes albopictus infected with Zika virus. Front. Microbiol. 13:1075362.,10.3389/fmicb.2022.1075362,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2023
NA,JIA003,survival,percent surviving life stage (number of adults divided by number of pupae),78.4,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guangzhou China,colony (F20),NA,0,decimal,23.116667,113.266667,Aedes albopictus,NA,NA,NA,408,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,23,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jian et al. 2023. Effects of constant temperature and daily fluctuating temperature on the transovarial transmission and life cycle of Aedes albopictus infected with Zika virus. Front. Microbiol. 13:1075362.,10.3389/fmicb.2022.1075362,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2023
NA,JIA003,survival,percent surviving life stage (number of adults divided by number of pupae),91.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guangzhou China,colony (F20),NA,0,decimal,23.116667,113.266667,Aedes albopictus,NA,NA,NA,193,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,31,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jian et al. 2023. Effects of constant temperature and daily fluctuating temperature on the transovarial transmission and life cycle of Aedes albopictus infected with Zika virus. Front. Microbiol. 13:1075362.,10.3389/fmicb.2022.1075362,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2023
NA,JIA003,survival,percent surviving life stage (number of adults divided by number of pupae),33.39,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guangzhou China,colony (F20),NA,0,decimal,23.116667,113.266667,Aedes albopictus,NA,NA,NA,408,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,23,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jian et al. 2023. Effects of constant temperature and daily fluctuating temperature on the transovarial transmission and life cycle of Aedes albopictus infected with Zika virus. Front. Microbiol. 13:1075362.,10.3389/fmicb.2022.1075362,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2023
NA,JIA003,survival,percent surviving life stage (number of adults divided by number of pupae),34.65,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guangzhou China,colony (F20),NA,0,decimal,23.116667,113.266667,Aedes albopictus,NA,NA,NA,193,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,31,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jian et al. 2023. Effects of constant temperature and daily fluctuating temperature on the transovarial transmission and life cycle of Aedes albopictus infected with Zika virus. Front. Microbiol. 13:1075362.,10.3389/fmicb.2022.1075362,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2023
NA,JIA004,fecundity,mean lifetime number of eggs per female after Zika infection,31.8,eggs individual-1,16.6,16.6,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guangzhou China,colony (F20),NA,0,decimal,23.116667,113.266667,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,23,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Jian et al. 2023. Effects of constant temperature and daily fluctuating temperature on the transovarial transmission and life cycle of Aedes albopictus infected with Zika virus. Front. Microbiol. 13:1075362.,10.3389/fmicb.2022.1075362,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2023
NA,JIA004,fecundity,mean lifetime number of eggs per female after Zika infection,23.6,eggs individual-1,15.3,15.3,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guangzhou China,colony (F20),NA,0,decimal,23.116667,113.266667,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,31,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Jian et al. 2023. Effects of constant temperature and daily fluctuating temperature on the transovarial transmission and life cycle of Aedes albopictus infected with Zika virus. Front. Microbiol. 13:1075362.,10.3389/fmicb.2022.1075362,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2023
PHXX291,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX292,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,JIA006,infection rate,Zika virus infection rate in parental F0,83.1,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guangzhou China,colony (F20),NA,0,decimal,23.116667,113.266667,Aedes albopictus,NA,NA,NA,42,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,23,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Jian et al. 2023. Effects of constant temperature and daily fluctuating temperature on the transovarial transmission and life cycle of Aedes albopictus infected with Zika virus. Front. Microbiol. 13:1075362.,10.3389/fmicb.2022.1075362,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2023
NA,JIA006,infection rate,Zika virus infection rate in parental F0,97.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guangzhou China,colony (F20),NA,0,decimal,23.116667,113.266667,Aedes albopictus,NA,NA,NA,49,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,31,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Jian et al. 2023. Effects of constant temperature and daily fluctuating temperature on the transovarial transmission and life cycle of Aedes albopictus infected with Zika virus. Front. Microbiol. 13:1075362.,10.3389/fmicb.2022.1075362,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2023
NA,JIA007,infection rate,Zika virus infection rate in progenie F1,59.4,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guangzhou China,colony (F20),NA,0,decimal,23.116667,113.266667,Aedes albopictus,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,23,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4c,Jian et al. 2023. Effects of constant temperature and daily fluctuating temperature on the transovarial transmission and life cycle of Aedes albopictus infected with Zika virus. Front. Microbiol. 13:1075362.,10.3389/fmicb.2022.1075362,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2023
NA,JIA007,infection rate,Zika virus infection rate in progenie F1,66,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guangzhou China,colony (F20),NA,0,decimal,23.116667,113.266667,Aedes albopictus,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,31,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4c,Jian et al. 2023. Effects of constant temperature and daily fluctuating temperature on the transovarial transmission and life cycle of Aedes albopictus infected with Zika virus. Front. Microbiol. 13:1075362.,10.3389/fmicb.2022.1075362,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2023
PHXX293,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX294,NA,development time,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX295,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX296,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX297,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX298,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX299,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,PHX51,longevity,mean duration of life stage completion,4,days,0.15,0.15,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,adult,female,14,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,longevity is the number of days after adult emergence that it took for 50% of the population to die,TRUE,01/01/1996
NA,PHX51,longevity,mean duration of life stage,23,days,1.8,1.8,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,adult,female,18,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,longevity is the number of days after adult emergence that it took for 50% of the population to die,TRUE,01/01/1996
NA,PHX51,longevity,mean duration of life stage,64,days,5.58,5.58,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,adult,female,22,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,longevity is the number of days after adult emergence that it took for 50% of the population to die,TRUE,01/01/1996
NA,PHX51,longevity,mean duration of life stage,70,days,7.23,7.23,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,adult,female,26,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,longevity is the number of days after adult emergence that it took for 50% of the population to die,TRUE,01/01/1996
NA,PHX51,longevity,mean duration of life stage,29,days,2.1,2.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,adult,female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,longevity is the number of days after adult emergence that it took for 50% of the population to die,TRUE,01/01/1996
NA,PHX51,longevity,mean duration of life stage,3,days,0.7,0.7,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,adult,female,33.5,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,longevity is the number of days after adult emergence that it took for 50% of the population to die,TRUE,01/01/1996
NA,PHX51,longevity,mean duration of life stage,0,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,adult,female,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,longevity is the number of days after adult emergence that it took for 50% of the population to die,TRUE,01/01/1996
NA,PHX511,fecundity,mean lifetime eggs per 10 individuals,0,eggs 10 individuals-1,0,0.15,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,adult,female,14,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,larval mortality was 100% so larvae were hatched and maintained at 26 C and then transferred to this temperature as L2s.,TRUE,01/01/1996
NA,PHX511,fecundity,mean lifetime eggs per 10 individuals,1027,eggs 10 individuals-1,9.8,1.8,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,adult,female,18,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1996
NA,PHX511,fecundity,mean lifetime eggs per 10 individuals,8430,eggs 10 individuals-1,159.6,5.58,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,adult,female,22,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1996
NA,PHX511,fecundity,mean lifetime eggs per 10 individuals,10090,eggs 10 individuals-1,31.3,7.23,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,adult,female,26,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1996
NA,PHX511,fecundity,mean lifetime eggs per 10 individuals,3970,eggs 10 individuals-1,66.25,2.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,adult,female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1996
NA,PHX511,fecundity,mean lifetime eggs per 10 individuals,0,eggs 10 individuals-1,0,0.7,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,adult,female,33.5,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1996
NA,PHX511,fecundity,mean lifetime eggs per 10 individuals,0,eggs 10 individuals-1,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,adult,female,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1996
PHXX300,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX301,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX302,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX303,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX304,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,PHX51,longevity,mean duration of life stage,5.06,days,0.39,0.39,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,fluctuating temperature range,temperatures fluctuated between 16 and 12 degrees Celsius,NA,Celsius,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,adult,female,NA,NA,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,longevity is the number of days after adult emergence that it took for 50% of the population to die,TRUE,01/01/1996
NA,PHX51,longevity,mean duration of life stage,32.8,days,4,4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,fluctuating temperature range,temperatures fluctuated between 22 and 14 degrees Celsius,NA,Celsius,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,adult,female,NA,NA,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,longevity is the number of days after adult emergence that it took for 50% of the population to die,TRUE,01/01/1996
NA,PHX51,longevity,mean duration of life stage,71,days,5.95,5.95,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,fluctuating temperature range,temperatures fluctuated between 26 and 18 degrees Celsius,NA,Celsius,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,adult,female,NA,NA,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,longevity is the number of days after adult emergence that it took for 50% of the population to die,TRUE,01/01/1996
NA,PHX51,longevity,mean duration of life stage,81,days,3.79,3.79,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,fluctuating temperature range,temperatures fluctuated between 30 and 22 degrees Celsius,NA,Celsius,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,adult,female,NA,NA,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,longevity is the number of days after adult emergence that it took for 50% of the population to die,TRUE,01/01/1996
NA,PHX51,longevity,mean duration of life stage,41,days,3.7,3.7,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,fluctuating temperature range,temperatures fluctuated between 33 and 27 degrees Celsius,NA,Celsius,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,adult,female,NA,NA,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,longevity is the number of days after adult emergence that it took for 50% of the population to die,TRUE,01/01/1996
NA,PHX511,fecundity,mean lifetime eggs per 10 individuals,0,eggs 10 individuals-1,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,fluctuating temperature range,temperatures fluctuated between 16 and 12 degrees Celsius,NA,Celsius,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,adult,female,NA,NA,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1996
NA,PHX511,fecundity,mean lifetime eggs per 10 individuals,4850,eggs 10 individuals-1,50.83,50.83,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,fluctuating temperature range,temperatures fluctuated between 22 and 14 degrees Celsius,NA,Celsius,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,adult,female,NA,NA,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1996
NA,PHX511,fecundity,mean lifetime eggs per 10 individuals,10650,eggs 10 individuals-1,220.4,220.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,fluctuating temperature range,temperatures fluctuated between 26 and 18 degrees Celsius,NA,Celsius,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,adult,female,NA,NA,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1996
NA,PHX511,fecundity,mean lifetime eggs per 10 individuals,12600,eggs 10 individuals-1,363,363,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,fluctuating temperature range,temperatures fluctuated between 30 and 22 degrees Celsius,NA,Celsius,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,adult,female,NA,NA,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1996
NA,PHX511,fecundity,mean lifetime eggs per 10 individuals,6140,eggs 10 individuals-1,24.12,24.12,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,fluctuating temperature range,temperatures fluctuated between 33 and 27 degrees Celsius,NA,Celsius,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,adult,female,NA,NA,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1996
PHXX305,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX306,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX307,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX308,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX309,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX310,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX311,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,PHX51,longevity,mean duration of life stage,2,days,0.29,0.29,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,adult,male,14,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,longevity is the number of days after adult emergence that it took for 50% of the population to die,TRUE,01/01/1996
NA,PHX51,longevity,mean duration of life stage,18,days,1.9,1.9,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,adult,male,18,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,longevity is the number of days after adult emergence that it took for 50% of the population to die,TRUE,01/01/1996
NA,PHX51,longevity,mean duration of life stage,56,days,3.46,3.46,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,adult,male,22,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,longevity is the number of days after adult emergence that it took for 50% of the population to die,TRUE,01/01/1996
NA,PHX51,longevity,mean duration of life stage,56,days,2.48,2.48,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,adult,male,26,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,longevity is the number of days after adult emergence that it took for 50% of the population to die,TRUE,01/01/1996
NA,PHX51,longevity,mean duration of life stage,22,days,2.14,2.14,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,adult,male,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,longevity is the number of days after adult emergence that it took for 50% of the population to die,TRUE,01/01/1996
NA,PHX51,longevity,mean duration of life stage,2,days,0.09,0.09,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,adult,male,33.5,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,longevity is the number of days after adult emergence that it took for 50% of the population to die,TRUE,01/01/1996
NA,PHX51,longevity,mean duration of life stage,1,days,0.03,0.03,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,adult,male,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,longevity is the number of days after adult emergence that it took for 50% of the population to die,TRUE,01/01/1996
PHXX312,NA,development time,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX313,NA,development time,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX314,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX315,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX316,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,PHX51,longevity,mean duration of life stage,4,days,0.61,0.61,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,fluctuating temperature range,temperatures fluctuated between 16 and 12 degrees Celsius,NA,Celsius,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,adult,male,NA,NA,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,longevity is the number of days after adult emergence that it took for 50% of the population to die,TRUE,01/01/1996
NA,PHX51,longevity,mean duration of life stage,26,days,2.11,2.11,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,fluctuating temperature range,temperatures fluctuated between 22 and 14 degrees Celsius,NA,Celsius,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,adult,male,NA,NA,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,longevity is the number of days after adult emergence that it took for 50% of the population to die,TRUE,01/01/1996
NA,PHX51,longevity,mean duration of life stage,64,days,4.1,4.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,fluctuating temperature range,temperatures fluctuated between 26 and 18 degrees Celsius,NA,Celsius,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,adult,male,NA,NA,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,longevity is the number of days after adult emergence that it took for 50% of the population to die,TRUE,01/01/1996
NA,PHX51,longevity,mean duration of life stage,64,days,4.02,4.02,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,fluctuating temperature range,temperatures fluctuated between 30 and 22 degrees Celsius,NA,Celsius,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,adult,male,NA,NA,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,longevity is the number of days after adult emergence that it took for 50% of the population to die,TRUE,01/01/1996
NA,PHX51,longevity,mean duration of life stage,29,days,3.18,3.18,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,fluctuating temperature range,temperatures fluctuated between 33 and 27 degrees Celsius,NA,Celsius,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,adult,male,NA,NA,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,longevity is the number of days after adult emergence that it took for 50% of the population to die,TRUE,01/01/1996
PHXX317,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX318,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX319,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX320,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX321,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX322,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX323,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX324,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX325,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX326,NA,development time,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX327,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX328,NA,development time,individual-level duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX329,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX330,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX331,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX332,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX333,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX334,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX335,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX336,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX337,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX338,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX339,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX340,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX341,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX342,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX343,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX344,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX345,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX346,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX347,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX348,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX349,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX350,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX351,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX352,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX353,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX354,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX355,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX356,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX357,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX358,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX359,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX360,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX361,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX362,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX363,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX364,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX365,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX366,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX367,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX368,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX369,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX370,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX371,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX372,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX373,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX374,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX375,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX376,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX377,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX378,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX379,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX380,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX381,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX382,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX383,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX384,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX385,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX386,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX387,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX388,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX389,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX390,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX391,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX392,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX393,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX394,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX395,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX396,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX397,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX398,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX399,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX400,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX401,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX402,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX403,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX404,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX405,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX406,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX407,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX408,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX409,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX410,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX411,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX412,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX413,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.55,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX414,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX415,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX416,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX417,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX418,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX419,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX420,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX421,NA,development time,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX422,NA,development time,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX423,NA,development time,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX424,NA,development time,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,NA,mortality,percentage not surviving life stage,8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Aizu Japan,colony (F8),NA,0,decimal,37.494833,139.92975,Aedes albopictus,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did not survive the life stage from an initial number of n=50 at the start of the experiment,TRUE,01/01/2002
NA,NA,mortality,percentage not surviving life stage,10,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Aizu Japan,colony (F8),NA,0,decimal,37.494833,139.92975,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did not survive the life stage from an initial number of n=50 at the start of the experiment,TRUE,01/01/2002
NA,NA,mortality,percentage not surviving life stage,16,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Aizu Japan,colony (F8),NA,0,decimal,37.494833,139.92975,Aedes albopictus,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did not survive the life stage from an initial number of n=50 at the start of the experiment,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,13.72,days,0.76,0.76,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Aizu Japan,colony (F8),NA,0,decimal,37.494833,139.92975,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,10.7,days,0.67,0.67,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Aizu Japan,colony (F8),NA,0,decimal,37.494833,139.92975,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,8.36,days,0.92,0.92,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Aizu Japan,colony (F8),NA,0,decimal,37.494833,139.92975,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,9.5,days,0.76,0.76,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Aizu Japan,colony (F8),NA,0,decimal,37.494833,139.92975,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,3.12,days,0.35,0.35,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Aizu Japan,colony (F8),NA,0,decimal,37.494833,139.92975,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,9.86,days,0.69,0.69,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Aizu Japan,colony (F8),NA,0,decimal,37.494833,139.92975,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,3.86,days,0.38,0.38,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Aizu Japan,colony (F8),NA,0,decimal,37.494833,139.92975,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,7.84,days,0.96,0.96,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Aizu Japan,colony (F8),NA,0,decimal,37.494833,139.92975,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,male,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,2.47,days,0.61,0.61,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Aizu Japan,colony (F8),NA,0,decimal,37.494833,139.92975,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,male,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,8.2,days,0.63,0.63,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Aizu Japan,colony (F8),NA,0,decimal,37.494833,139.92975,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,2.5,days,0.53,0.53,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Aizu Japan,colony (F8),NA,0,decimal,37.494833,139.92975,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,12.62,days,0.53,0.53,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Aizu Japan,colony (F8),NA,0,decimal,37.494833,139.92975,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,5.89,days,0.94,0.94,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Aizu Japan,colony (F8),NA,0,decimal,37.494833,139.92975,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,male,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,1.84,days,0.37,0.37,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Aizu Japan,colony (F8),NA,0,decimal,37.494833,139.92975,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,male,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,10.31,days,0.88,0.88,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Aizu Japan,colony (F8),NA,0,decimal,37.494833,139.92975,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,MSS0019x,EIP (extrinsic incubation period),post-exposure duration required for vectors to become infectious (virus detected in salivary glands EIP50 = 50% of asymptotic value at that temperature from vector competence time series),5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,text,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0019x,EIP (extrinsic incubation period),post-exposure duration required for vectors to become infectious (virus detected in salivary glands EIP50 = 50% of asymptotic value at that temperature from vector competence time series),4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,text,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0019x,EIP (extrinsic incubation period),post-exposure duration required for vectors to become infectious (virus detected in salivary glands EIP50 = 50% of asymptotic value at that temperature from vector competence time series),3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,text,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021a,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of temperature (interactor1temp) and post-infection duration (secondstressor),90,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,1,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021a,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of temperature (interactor1temp) and post-infection duration (secondstressor),90,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,2,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021a,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,3,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021a,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of temperature (interactor1temp) and post-infection duration (secondstressor),90,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,5,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021a,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,7,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021a,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of temperature (interactor1temp) and post-infection duration (secondstressor),80,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,9,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021a,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,12,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021a,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,14,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021a,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,16,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021a,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of temperature (interactor1temp) and post-infection duration (secondstressor),90,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,18,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021a,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of temperature (interactor1temp) and post-infection duration (secondstressor),80,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,20,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021a,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of temperature (interactor1temp) and post-infection duration (secondstressor),90,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,25,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021a,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,30,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021a,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of temperature (interactor1temp) and post-infection duration (secondstressor),90,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,35,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021a,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,1,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021a,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,2,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021a,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,3,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021a,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,4,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021a,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,5,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021a,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,6,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021a,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,7,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021a,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,8,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021a,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of temperature (interactor1temp) and post-infection duration (secondstressor),83,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,9,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021a,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,10,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021a,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,12,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021a,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,14,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021a,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,16,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021a,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,18,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021a,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,20,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021a,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,25,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021a,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,1,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021a,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,2,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021a,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,3,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021a,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,5,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021a,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,7,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021a,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,9,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021a,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of temperature (interactor1temp) and post-infection duration (secondstressor),87,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,12,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021a,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,14,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021a,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of temperature (interactor1temp) and post-infection duration (secondstressor),83,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,16,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021a,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of temperature (interactor1temp) and post-infection duration (secondstressor),80,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,20,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021b,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,1,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021b,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,2,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021b,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),50,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,3,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021b,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),80,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,5,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021b,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,7,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021b,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),70,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,9,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021b,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),90,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,12,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021b,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,14,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021b,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),90,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,16,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021b,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),90,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,18,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021b,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),80,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,20,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021b,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),90,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,25,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021b,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,30,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021b,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),90,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,35,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021b,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),20,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,1,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021b,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,2,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021b,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),80,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,3,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021b,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,4,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021b,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,5,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021b,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,6,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021b,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),80,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,7,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021b,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,8,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021b,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),83,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,9,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021b,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),80,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,10,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021b,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,12,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021b,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,14,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021b,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),83,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,16,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021b,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,18,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021b,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,20,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021b,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,25,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021b,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,1,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021b,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),20,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,2,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021b,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,3,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021b,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),80,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,5,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021b,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),90,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,7,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021b,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,9,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021b,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),75,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,12,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021b,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,14,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021b,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),83,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,16,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021b,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),80,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,20,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021c,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,1,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021c,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,2,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021c,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),30,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,3,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021c,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),60,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,5,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021c,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),80,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,7,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021c,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),70,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,9,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021c,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),90,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,12,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021c,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,14,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021c,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),60,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,16,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021c,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),90,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,18,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021c,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),80,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,20,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021c,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),90,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,25,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021c,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,30,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021c,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),90,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,35,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021c,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,1,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021c,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),50,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,2,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021c,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),50,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,3,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021c,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,4,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021c,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,5,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021c,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,6,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021c,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),80,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,7,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021c,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,8,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021c,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),83,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,9,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021c,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),80,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,10,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021c,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,12,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021c,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,14,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021c,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),83,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,16,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021c,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),83,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,18,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021c,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,20,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021c,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,25,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021c,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,1,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021c,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,2,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021c,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),60,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,3,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021c,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),60,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,5,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021c,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),80,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,7,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021c,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,9,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021c,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),75,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,12,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021c,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,14,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021c,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),83,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,16,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021c,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in head as a function of temperature (interactor1temp) and post-infection duration (secondstressor),80,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito,20,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 1,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021dx,viral titers (body),peak concentration of virus based on Tissue Culture Infectious Dose assay,6.5,log10 CCID50 body part-1,0.1,0.1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito (peaked between 14 and 16 days),15,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 2,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.100,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021d,viral titers (head),peak concentration of virus based on Tissue Culture Infectious Dose assay,4,log10 CCID50 body part-1,0.2,0.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito (peaked between 14 and 16 days),15,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 2,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.100,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSSx021d,viral titers (salivary glands),peak concentration of virus based on Tissue Culture Infectious Dose assay,4.5,log10 CCID50 body part-1,0.6,0.6,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito (peaked between 14 and 16 days),15,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 2,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.100,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021dx,viral titers (body),peak concentration of virus based on Tissue Culture Infectious Dose assay,6.9,log10 CCID50 body part-1,0.3,0.3,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito (peaked between 4 and 7 days),5.5,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 2,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.100,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021d,viral titers (head),peak concentration of virus based on Tissue Culture Infectious Dose assay,5.1,log10 CCID50 body part-1,0.2,0.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito (peaked between 4 and 7 days),5.5,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,38,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 2,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.100,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSSx021d,viral titers (salivary glands),peak concentration of virus based on Tissue Culture Infectious Dose assay,3.8,log10 CCID50 body part-1,0.4,0.4,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito (peaked between 4 and 7 days),5.5,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,38,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 2,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.100,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021dx,viral titers (body),peak concentration of virus based on Tissue Culture Infectious Dose assay,4.1,log10 CCID50 body part-1,0.03,0.03,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito (peaked between 3 and 5 days),4,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 2,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.100,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021d,viral titers (head),peak concentration of virus based on Tissue Culture Infectious Dose assay,2.8,log10 CCID50 body part-1,0.2,0.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito (peaked between 3 and 5 days),4,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 2,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.100,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSSx021d,viral titers (salivary glands),peak concentration of virus based on Tissue Culture Infectious Dose assay,2.1,log10 CCID50 body part-1,0.1,0.1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito (peaked between 3 and 5 days),4,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 2,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.100,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021e,stabilised viral titer (body),mean concentration of virus based on Tissue Culture Infectious Dose assay,5.3,log10 CCID50 body part-1,0.4,0.4,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito (peaked between 18 and 35 days),26.5,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,41,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 2,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.100,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021ex,stabilised viral titer (head),mean concentration of virus based on Tissue Culture Infectious Dose assay,3,log10 CCID50 body part-1,0.4,0.4,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito (peaked between 18 and 35 days),26.5,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,41,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 2,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.100,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSSx021e,stabilised viral titer (salivary glands),mean concentration of virus based on Tissue Culture Infectious Dose assay,3.1,log10 CCID50 body part-1,0.3,0.3,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito (peaked between 18 and 35 days),26.5,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,41,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 2,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.100,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021e,stabilised viral titer (body),mean concentration of virus based on Tissue Culture Infectious Dose assay,4.2,log10 CCID50 body part-1,0.2,0.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito (peaked between 10 and 25 days),17.5,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,76,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 2,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.100,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021ex,stabilised viral titer (head),mean concentration of virus based on Tissue Culture Infectious Dose assay,3.3,log10 CCID50 body part-1,0.3,0.3,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito (peaked between 10 and 25 days),17.5,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,70,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 2,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.100,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSSx021e,stabilised viral titer (salivary glands),mean concentration of virus based on Tissue Culture Infectious Dose assay,2.6,log10 CCID50 body part-1,0.2,0.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito (peaked between 10 and 25 days),17.5,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,68,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 2,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.100,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021e,stabilised viral titer (body),mean concentration of virus based on Tissue Culture Infectious Dose assay,3.5,log10 CCID50 body part-1,0.4,0.4,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito (peaked between 7 and 20 days),13.5,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,54,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 2,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.100,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021ex,stabilised viral titer (head),mean concentration of virus based on Tissue Culture Infectious Dose assay,2.3,log10 CCID50 body part-1,0.4,0.4,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito (peaked between 7 and 20 days),13.5,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 2,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.100,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSSx021e,stabilised viral titer (salivary glands),mean concentration of virus based on Tissue Culture Infectious Dose assay,1.8,log10 CCID50 body part-1,0.4,0.4,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^4.3 CCID50 per mosquito (peaked between 7 and 20 days),13.5,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,47,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 2,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.100,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021f,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of rearing temperature (interactor1growthtemp) holding temperature (interactor1temp) and post-infection duration (secondstressor),70,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,7,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 3,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021f,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of rearing temperature (interactor1growthtemp) holding temperature (interactor1temp) and post-infection duration (secondstressor),63,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,7,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 3,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021f,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of rearing temperature (interactor1growthtemp) holding temperature (interactor1temp) and post-infection duration (secondstressor),78,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,7,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 3,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021f,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of rearing temperature (interactor1growthtemp) holding temperature (interactor1temp) and post-infection duration (secondstressor),68,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,7,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 3,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021f,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of rearing temperature (interactor1growthtemp) holding temperature (interactor1temp) and post-infection duration (secondstressor),73,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,7,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 3,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021f,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of rearing temperature (interactor1growthtemp) holding temperature (interactor1temp) and post-infection duration (secondstressor),53,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,7,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 3,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021f,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of rearing temperature (interactor1growthtemp) holding temperature (interactor1temp) and post-infection duration (secondstressor),70,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,7,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 3,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021g,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of rearing temperature (interactor1growthtemp) holding temperature (interactor1temp) and post-infection duration (secondstressor),65,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,7,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 3,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021g,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of rearing temperature (interactor1growthtemp) holding temperature (interactor1temp) and post-infection duration (secondstressor),63,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,7,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 3,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021g,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of rearing temperature (interactor1growthtemp) holding temperature (interactor1temp) and post-infection duration (secondstressor),75,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,7,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 3,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021g,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of rearing temperature (interactor1growthtemp) holding temperature (interactor1temp) and post-infection duration (secondstressor),65,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,7,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 3,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021g,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of rearing temperature (interactor1growthtemp) holding temperature (interactor1temp) and post-infection duration (secondstressor),70,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,7,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 3,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021g,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of rearing temperature (interactor1growthtemp) holding temperature (interactor1temp) and post-infection duration (secondstressor),50,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,7,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 3,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021g,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of rearing temperature (interactor1growthtemp) holding temperature (interactor1temp) and post-infection duration (secondstressor),70,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,7,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 3,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021h,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in salivary glands as a function of rearing temperature (interactor1growthtemp) holding temperature (interactor1temp) and post-infection duration (secondstressor),60,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,7,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 3,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021h,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in salivary glands as a function of rearing temperature (interactor1growthtemp) holding temperature (interactor1temp) and post-infection duration (secondstressor),65,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,7,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 3,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021h,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in salivary glands as a function of rearing temperature (interactor1growthtemp) holding temperature (interactor1temp) and post-infection duration (secondstressor),75,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,7,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 3,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021h,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in salivary glands as a function of rearing temperature (interactor1growthtemp) holding temperature (interactor1temp) and post-infection duration (secondstressor),60,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,7,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 3,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021h,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in salivary glands as a function of rearing temperature (interactor1growthtemp) holding temperature (interactor1temp) and post-infection duration (secondstressor),70,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,7,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 3,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021h,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in salivary glands as a function of rearing temperature (interactor1growthtemp) holding temperature (interactor1temp) and post-infection duration (secondstressor),55,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,7,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 3,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021h,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in salivary glands as a function of rearing temperature (interactor1growthtemp) holding temperature (interactor1temp) and post-infection duration (secondstressor),70,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,7,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 3,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021f,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of rearing temperature (interactor1growthtemp) holding temperature (interactor1temp) and post-infection duration (secondstressor),82,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,14,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,39,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 3,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021f,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of rearing temperature (interactor1growthtemp) holding temperature (interactor1temp) and post-infection duration (secondstressor),70,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,14,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 3,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021f,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of rearing temperature (interactor1growthtemp) holding temperature (interactor1temp) and post-infection duration (secondstressor),63,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,14,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 3,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021f,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of rearing temperature (interactor1growthtemp) holding temperature (interactor1temp) and post-infection duration (secondstressor),65,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,14,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 3,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021f,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of rearing temperature (interactor1growthtemp) holding temperature (interactor1temp) and post-infection duration (secondstressor),72,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,14,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 3,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021f,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of rearing temperature (interactor1growthtemp) holding temperature (interactor1temp) and post-infection duration (secondstressor),69,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,14,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,36,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 3,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021f,infection rate (body),percentage of exposed mosquitoes with virus detected in body as a function of rearing temperature (interactor1growthtemp) holding temperature (interactor1temp) and post-infection duration (secondstressor),48,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,14,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,21,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 3,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021g,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of rearing temperature (interactor1growthtemp) holding temperature (interactor1temp) and post-infection duration (secondstressor),82,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,14,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,39,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 3,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021g,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of rearing temperature (interactor1growthtemp) holding temperature (interactor1temp) and post-infection duration (secondstressor),70,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,14,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 3,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021g,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of rearing temperature (interactor1growthtemp) holding temperature (interactor1temp) and post-infection duration (secondstressor),63,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,14,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 3,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021g,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of rearing temperature (interactor1growthtemp) holding temperature (interactor1temp) and post-infection duration (secondstressor),65,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,14,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 3,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021g,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of rearing temperature (interactor1growthtemp) holding temperature (interactor1temp) and post-infection duration (secondstressor),72,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,14,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 3,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021g,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of rearing temperature (interactor1growthtemp) holding temperature (interactor1temp) and post-infection duration (secondstressor),67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,14,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,36,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 3,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021g,infection rate (head),percentage of exposed mosquitoes with virus detected in head as a function of rearing temperature (interactor1growthtemp) holding temperature (interactor1temp) and post-infection duration (secondstressor),43,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,14,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,21,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 3,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021h,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in salivary glands as a function of rearing temperature (interactor1growthtemp) holding temperature (interactor1temp) and post-infection duration (secondstressor),80,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,14,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 3,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021h,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in salivary glands as a function of rearing temperature (interactor1growthtemp) holding temperature (interactor1temp) and post-infection duration (secondstressor),75,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,14,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 3,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021h,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in salivary glands as a function of rearing temperature (interactor1growthtemp) holding temperature (interactor1temp) and post-infection duration (secondstressor),63,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,14,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 3,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021h,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in salivary glands as a function of rearing temperature (interactor1growthtemp) holding temperature (interactor1temp) and post-infection duration (secondstressor),65,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,14,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 3,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021h,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in salivary glands as a function of rearing temperature (interactor1growthtemp) holding temperature (interactor1temp) and post-infection duration (secondstressor),72,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,14,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 3,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021h,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in salivary glands as a function of rearing temperature (interactor1growthtemp) holding temperature (interactor1temp) and post-infection duration (secondstressor),60,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,14,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 3,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021h,infection rate (salivary glands),percentage of exposed mosquitoes with virus detected in salivary glands as a function of rearing temperature (interactor1growthtemp) holding temperature (interactor1temp) and post-infection duration (secondstressor),43,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,14,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,21,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 3,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax. larval rearing temp was the same as adult temp,TRUE,01/01/2002
NA,MSS0021p,viral titers (body),mean concentration of virus based on Tissue Culture Infectious Dose assay as a function of post-exposure duration and being reared and held at different temperatures after feeding,3.3,titers body part-1,2.3,2.3,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,7,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 4,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax,TRUE,01/01/2002
NA,MSS0021p,viral titers (body),mean concentration of virus based on Tissue Culture Infectious Dose assay as a function of post-exposure duration and being reared and held at different temperatures after feeding,2.9,titers body part-1,2.6,2.6,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,7,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 4,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax,TRUE,01/01/2002
NA,MSS0021p,viral titers (body),mean concentration of virus based on Tissue Culture Infectious Dose assay as a function of post-exposure duration and being reared and held at different temperatures after feeding,4,titers body part-1,2.3,2.3,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,7,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 4,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax,TRUE,01/01/2002
NA,MSS0021p,viral titers (body),mean concentration of virus based on Tissue Culture Infectious Dose assay as a function of post-exposure duration and being reared and held at different temperatures after feeding,3.4,titers body part-1,2.6,2.6,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,7,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 4,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax,TRUE,01/01/2002
NA,MSS0021p,viral titers (body),mean concentration of virus based on Tissue Culture Infectious Dose assay as a function of post-exposure duration and being reared and held at different temperatures after feeding,3.3,titers body part-1,2.4,2.4,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,7,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 4,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax,TRUE,01/01/2002
NA,MSS0021p,viral titers (body),mean concentration of virus based on Tissue Culture Infectious Dose assay as a function of post-exposure duration and being reared and held at different temperatures after feeding,2.2,titers body part-1,2.3,2.3,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,7,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 4,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax,TRUE,01/01/2002
NA,MSS0021p,viral titers (body),mean concentration of virus based on Tissue Culture Infectious Dose assay as a function of post-exposure duration and being reared and held at different temperatures after feeding,2.7,titers body part-1,2.2,2.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,7,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 4,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax,TRUE,01/01/2002
NA,MSS0021q,viral titers (head),mean concentration of virus based on Tissue Culture Infectious Dose assay as a function of post-exposure duration and being reared and held at different temperatures after feeding,1.9,titers body part-1,1.7,1.7,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,7,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 4,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax,TRUE,01/01/2002
NA,MSS0021q,viral titers (head),mean concentration of virus based on Tissue Culture Infectious Dose assay as a function of post-exposure duration and being reared and held at different temperatures after feeding,2,titers body part-1,1.8,1.8,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,7,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 4,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax,TRUE,01/01/2002
NA,MSS0021q,viral titers (head),mean concentration of virus based on Tissue Culture Infectious Dose assay as a function of post-exposure duration and being reared and held at different temperatures after feeding,2.1,titers body part-1,1.9,1.9,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,7,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 4,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax,TRUE,01/01/2002
NA,MSS0021q,viral titers (head),mean concentration of virus based on Tissue Culture Infectious Dose assay as a function of post-exposure duration and being reared and held at different temperatures after feeding,1.8,titers body part-1,1.7,1.7,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,7,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 4,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax,TRUE,01/01/2002
NA,MSS0021q,viral titers (head),mean concentration of virus based on Tissue Culture Infectious Dose assay as a function of post-exposure duration and being reared and held at different temperatures after feeding,2,titers body part-1,1.6,1.6,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,7,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 4,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax,TRUE,01/01/2002
NA,MSS0021q,viral titers (head),mean concentration of virus based on Tissue Culture Infectious Dose assay as a function of post-exposure duration and being reared and held at different temperatures after feeding,2,titers body part-1,1.6,1.6,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,7,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 4,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax,TRUE,01/01/2002
NA,MSS0021q,viral titers (head),mean concentration of virus based on Tissue Culture Infectious Dose assay as a function of post-exposure duration and being reared and held at different temperatures after feeding,2.1,titers body part-1,1.6,1.6,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,7,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 4,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax,TRUE,01/01/2002
NA,MSS0021s,viral titers (salivary glands),mean concentration of virus based on Tissue Culture Infectious Dose assay as a function of post-exposure duration and being reared and held at different temperatures after feeding,1.6,titers body part-1,1.5,1.5,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,7,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 4,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax,TRUE,01/01/2002
NA,MSS0021s,viral titers (salivary glands),mean concentration of virus based on Tissue Culture Infectious Dose assay as a function of post-exposure duration and being reared and held at different temperatures after feeding,1.6,titers body part-1,1.3,1.3,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,7,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 4,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax,TRUE,01/01/2002
NA,MSS0021s,viral titers (salivary glands),mean concentration of virus based on Tissue Culture Infectious Dose assay as a function of post-exposure duration and being reared and held at different temperatures after feeding,1.8,titers body part-1,1.6,1.6,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,7,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 4,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax,TRUE,01/01/2002
NA,MSS0021s,viral titers (salivary glands),mean concentration of virus based on Tissue Culture Infectious Dose assay as a function of post-exposure duration and being reared and held at different temperatures after feeding,1.6,titers body part-1,1.5,1.5,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,7,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 4,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax,TRUE,01/01/2002
NA,MSS0021s,viral titers (salivary glands),mean concentration of virus based on Tissue Culture Infectious Dose assay as a function of post-exposure duration and being reared and held at different temperatures after feeding,1.6,titers body part-1,1.4,1.4,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,7,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 4,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax,TRUE,01/01/2002
NA,MSS0021s,viral titers (salivary glands),mean concentration of virus based on Tissue Culture Infectious Dose assay as a function of post-exposure duration and being reared and held at different temperatures after feeding,1.6,titers body part-1,1.4,1.4,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,7,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 4,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax,TRUE,01/01/2002
NA,MSS0021s,viral titers (salivary glands),mean concentration of virus based on Tissue Culture Infectious Dose assay as a function of post-exposure duration and being reared and held at different temperatures after feeding,1.6,titers body part-1,1.4,1.4,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,7,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 4,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax,TRUE,01/01/2002
NA,MSS0021t,viral titers (body),mean concentration of virus based on Tissue Culture Infectious Dose assay as a function of post-exposure duration and being reared and held at different temperatures after feeding,4.5,titers body part-1,2.6,2.6,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,14,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 4,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax,TRUE,01/01/2002
NA,MSS0021t,viral titers (body),mean concentration of virus based on Tissue Culture Infectious Dose assay as a function of post-exposure duration and being reared and held at different temperatures after feeding,2.5,titers body part-1,2.3,2.3,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,14,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 4,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax,TRUE,01/01/2002
NA,MSS0021t,viral titers (body),mean concentration of virus based on Tissue Culture Infectious Dose assay as a function of post-exposure duration and being reared and held at different temperatures after feeding,3.2,titers body part-1,2.76,2.76,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,14,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 4,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax,TRUE,01/01/2002
NA,MSS0021t,viral titers (body),mean concentration of virus based on Tissue Culture Infectious Dose assay as a function of post-exposure duration and being reared and held at different temperatures after feeding,2.6,titers body part-1,2.3,2.3,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,14,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 4,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax,TRUE,01/01/2002
NA,MSS0021t,viral titers (body),mean concentration of virus based on Tissue Culture Infectious Dose assay as a function of post-exposure duration and being reared and held at different temperatures after feeding,2.6,titers body part-1,1.8,1.8,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,14,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 4,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax,TRUE,01/01/2002
NA,MSS0021t,viral titers (body),mean concentration of virus based on Tissue Culture Infectious Dose assay as a function of post-exposure duration and being reared and held at different temperatures after feeding,2.6,titers body part-1,1.8,1.8,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,14,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 4,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax,TRUE,01/01/2002
NA,MSS0021t,viral titers (body),mean concentration of virus based on Tissue Culture Infectious Dose assay as a function of post-exposure duration and being reared and held at different temperatures after feeding,1.9,titers body part-1,2,2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,14,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 4,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax,TRUE,01/01/2002
NA,MSS0021y,viral titers (head),mean concentration of virus based on Tissue Culture Infectious Dose assay as a function of post-exposure duration and being reared and held at different temperatures after feeding,3.2,titers body part-1,1.9,1.9,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,14,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 4,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax,TRUE,01/01/2002
NA,MSS0021y,viral titers (head),mean concentration of virus based on Tissue Culture Infectious Dose assay as a function of post-exposure duration and being reared and held at different temperatures after feeding,1.9,titers body part-1,1.8,1.8,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,14,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 4,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax,TRUE,01/01/2002
NA,MSS0021y,viral titers (head),mean concentration of virus based on Tissue Culture Infectious Dose assay as a function of post-exposure duration and being reared and held at different temperatures after feeding,1.8,titers body part-1,1.6,1.6,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,14,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 4,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax,TRUE,01/01/2002
NA,MSS0021y,viral titers (head),mean concentration of virus based on Tissue Culture Infectious Dose assay as a function of post-exposure duration and being reared and held at different temperatures after feeding,1.6,titers body part-1,1.8,1.8,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,14,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 4,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax,TRUE,01/01/2002
NA,MSS0021y,viral titers (head),mean concentration of virus based on Tissue Culture Infectious Dose assay as a function of post-exposure duration and being reared and held at different temperatures after feeding,1.6,titers body part-1,1.1,1.1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,14,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 4,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax,TRUE,01/01/2002
NA,MSS0021y,viral titers (head),mean concentration of virus based on Tissue Culture Infectious Dose assay as a function of post-exposure duration and being reared and held at different temperatures after feeding,1.6,titers body part-1,1.1,1.1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,14,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 4,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax,TRUE,01/01/2002
NA,MSS0021y,viral titers (head),mean concentration of virus based on Tissue Culture Infectious Dose assay as a function of post-exposure duration and being reared and held at different temperatures after feeding,1,titers body part-1,1.4,1.4,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,14,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 4,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax,TRUE,01/01/2002
NA,MSS0021v,viral titers (salivary glands),mean concentration of virus based on Tissue Culture Infectious Dose assay as a function of post-exposure duration and being reared and held at different temperatures after feeding,2.8,titers body part-1,1.7,1.7,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,14,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 4,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax,TRUE,01/01/2002
NA,MSS0021v,viral titers (salivary glands),mean concentration of virus based on Tissue Culture Infectious Dose assay as a function of post-exposure duration and being reared and held at different temperatures after feeding,1.5,titers body part-1,1.6,1.6,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,14,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 4,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax,TRUE,01/01/2002
NA,MSS0021v,viral titers (salivary glands),mean concentration of virus based on Tissue Culture Infectious Dose assay as a function of post-exposure duration and being reared and held at different temperatures after feeding,1.6,titers body part-1,1.4,1.4,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,14,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,18,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 4,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax,TRUE,01/01/2002
NA,MSS0021v,viral titers (salivary glands),mean concentration of virus based on Tissue Culture Infectious Dose assay as a function of post-exposure duration and being reared and held at different temperatures after feeding,1.4,titers body part-1,1.5,1.5,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,14,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 4,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax,TRUE,01/01/2002
NA,MSS0021v,viral titers (salivary glands),mean concentration of virus based on Tissue Culture Infectious Dose assay as a function of post-exposure duration and being reared and held at different temperatures after feeding,1.5,titers body part-1,1,1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,14,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 4,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax,TRUE,01/01/2002
NA,MSS0021v,viral titers (salivary glands),mean concentration of virus based on Tissue Culture Infectious Dose assay as a function of post-exposure duration and being reared and held at different temperatures after feeding,1.5,titers body part-1,1,1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,14,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,25,Celsius,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 4,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax,TRUE,01/01/2002
NA,MSS0021v,viral titers (salivary glands),mean concentration of virus based on Tissue Culture Infectious Dose assay as a function of post-exposure duration and being reared and held at different temperatures after feeding,1,titers body part-1,1.3,1.3,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on 10^3.3 CCID50 per mosquito,14,days,NA,NA,NA,NA,NA,Townsville Queensland Australia,field,01/01/1991,1,decimal,-19.25948043,146.8135288,Aedes vigilax,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,vigilax,adult,NA,32,Celsius,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Ross River virus,Orthornavirae,Kitrinoviricota,Alsuviricetes,Martellivirales,Togaviridae,Alphavirus,Ross River virus,NA,NA,NA,NA,table 4,Kay and Jennings 2002. Enhancement or modulation of the vector competence of Ochlerotatus vigilax (Diptera: Culicidae) for Ross River virus by temperature. Journal of Medical Entomology 39:1,10.1603/0022-2585-39.1.99,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,published under old nomenclature Ochlerotatus vigilax,TRUE,01/01/2002
NA,MSSx015,vector competence (transmission),percentage of chickens infected by a bite from an exposed mosquito,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on infected suckling mice,7,days,NA,NA,NA,NA,NA,Mildura Victoria Australia,field,01/01/1985,4,decimal,-34.188889,142.158333,Aedes alboannulatus,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,alboannulatus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Murray Valley virus,Orthornavirae,Kitrinoviricota,Flasuviricetes,Amarillovirales,Flaviviridae,Flavivirus,Murray Valley encephalitis virus,NA,NA,NA,NA,table 6,Kay et al. 1989. The vector competence of Culex annulirostris Aedes sagax and Aedes alboannulatus for Murray Valley encephalitis virus at different temperatures. Medical and Veterinary Entomology 3:2,10.1111/j.1365-2915.1989.tb00484.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,Mildura genotype. wild caught females. interactor1temp is the laboratory temperature adults were held at for testing,TRUE,01/01/1989
NA,MSSx015,vector competence (transmission),percentage of chickens infected by a bite from an exposed mosquito,8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on infected suckling mice,10,days,NA,NA,NA,NA,NA,Mildura Victoria Australia,field,01/01/1985,4,decimal,-34.188889,142.158333,Aedes alboannulatus,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,alboannulatus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Murray Valley virus,Orthornavirae,Kitrinoviricota,Flasuviricetes,Amarillovirales,Flaviviridae,Flavivirus,Murray Valley encephalitis virus,NA,NA,NA,NA,table 6,Kay et al. 1989. The vector competence of Culex annulirostris Aedes sagax and Aedes alboannulatus for Murray Valley encephalitis virus at different temperatures. Medical and Veterinary Entomology 3:2,10.1111/j.1365-2915.1989.tb00484.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,Mildura genotype. wild caught females. interactor1temp is the laboratory temperature adults were held at for testing,TRUE,01/01/1989
NA,MSSx015,vector competence (transmission),percentage of chickens infected by a bite from an exposed mosquito,27,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on infected suckling mice,13,days,NA,NA,NA,NA,NA,Mildura Victoria Australia,field,01/01/1985,4,decimal,-34.188889,142.158333,Aedes alboannulatus,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,alboannulatus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Murray Valley virus,Orthornavirae,Kitrinoviricota,Flasuviricetes,Amarillovirales,Flaviviridae,Flavivirus,Murray Valley encephalitis virus,NA,NA,NA,NA,table 6,Kay et al. 1989. The vector competence of Culex annulirostris Aedes sagax and Aedes alboannulatus for Murray Valley encephalitis virus at different temperatures. Medical and Veterinary Entomology 3:2,10.1111/j.1365-2915.1989.tb00484.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,Mildura genotype. wild caught females. interactor1temp is the laboratory temperature adults were held at for testing,TRUE,01/01/1989
NA,MSSx015,vector competence (transmission),percentage of chickens infected by a bite from an exposed mosquito,22,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on infected suckling mice,16,days,NA,NA,NA,NA,NA,Mildura Victoria Australia,field,01/01/1985,4,decimal,-34.188889,142.158333,Aedes alboannulatus,NA,NA,NA,23,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,alboannulatus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Murray Valley virus,Orthornavirae,Kitrinoviricota,Flasuviricetes,Amarillovirales,Flaviviridae,Flavivirus,Murray Valley encephalitis virus,NA,NA,NA,NA,table 6,Kay et al. 1989. The vector competence of Culex annulirostris Aedes sagax and Aedes alboannulatus for Murray Valley encephalitis virus at different temperatures. Medical and Veterinary Entomology 3:2,10.1111/j.1365-2915.1989.tb00484.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,Mildura genotype. wild caught females. interactor1temp is the laboratory temperature adults were held at for testing,TRUE,01/01/1989
NA,MSSx015,vector competence (transmission),percentage of chickens infected by a bite from an exposed mosquito,30,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on infected suckling mice,17,days,NA,NA,NA,NA,NA,Mildura Victoria Australia,field,01/01/1985,4,decimal,-34.188889,142.158333,Aedes alboannulatus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,alboannulatus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Murray Valley virus,Orthornavirae,Kitrinoviricota,Flasuviricetes,Amarillovirales,Flaviviridae,Flavivirus,Murray Valley encephalitis virus,NA,NA,NA,NA,table 6,Kay et al. 1989. The vector competence of Culex annulirostris Aedes sagax and Aedes alboannulatus for Murray Valley encephalitis virus at different temperatures. Medical and Veterinary Entomology 3:2,10.1111/j.1365-2915.1989.tb00484.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,Mildura genotype. wild caught females. interactor1temp is the laboratory temperature adults were held at for testing,TRUE,01/01/1989
NA,MSSx016,vector competence (transmission),percentage of chickens infected by a bite from an exposed mosquito,22,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on infected suckling mice,10,days,NA,NA,NA,NA,NA,Mildura Victoria Australia,field,01/01/1985,4,decimal,-34.188889,142.158333,Aedes sagax,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,sagax,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Murray Valley virus,Orthornavirae,Kitrinoviricota,Flasuviricetes,Amarillovirales,Flaviviridae,Flavivirus,Murray Valley encephalitis virus,NA,NA,NA,NA,table 6,Kay et al. 1989. The vector competence of Culex annulirostris Aedes sagax and Aedes alboannulatus for Murray Valley encephalitis virus at different temperatures. Medical and Veterinary Entomology 3:2,10.1111/j.1365-2915.1989.tb00484.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,Mildura genotype. wild caught females. interactor1temp is the laboratory temperature adults were held at for testing,TRUE,01/01/1989
NA,MSSx016,vector competence (transmission),percentage of chickens infected by a bite from an exposed mosquito,56,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on infected suckling mice,15,days,NA,NA,NA,NA,NA,Mildura Victoria Australia,field,01/01/1985,4,decimal,-34.188889,142.158333,Aedes sagax,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,sagax,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Murray Valley virus,Orthornavirae,Kitrinoviricota,Flasuviricetes,Amarillovirales,Flaviviridae,Flavivirus,Murray Valley encephalitis virus,NA,NA,NA,NA,table 6,Kay et al. 1989. The vector competence of Culex annulirostris Aedes sagax and Aedes alboannulatus for Murray Valley encephalitis virus at different temperatures. Medical and Veterinary Entomology 3:2,10.1111/j.1365-2915.1989.tb00484.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,Mildura genotype. wild caught females. interactor1temp is the laboratory temperature adults were held at for testing,TRUE,01/01/1989
NA,MSSx017,vector competence (infection present in vector body),percentage of exposed mosquitoes with virus in body as a function of post-exposure duration (secondstressor) and temperature,36,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on infected suckling mice,7,days,NA,NA,NA,NA,NA,Mildura Victoria Australia,field,01/01/1985,4,decimal,-34.188889,142.158333,Aedes alboannulatus,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,alboannulatus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Murray Valley virus,Orthornavirae,Kitrinoviricota,Flasuviricetes,Amarillovirales,Flaviviridae,Flavivirus,Murray Valley encephalitis virus,NA,NA,NA,NA,table 6,Kay et al. 1989. The vector competence of Culex annulirostris Aedes sagax and Aedes alboannulatus for Murray Valley encephalitis virus at different temperatures. Medical and Veterinary Entomology 3:2,10.1111/j.1365-2915.1989.tb00484.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,Mildura genotype. wild caught females. interactor1temp is the laboratory temperature adults were held at for testing,TRUE,01/01/1989
NA,MSSx017,vector competence (infection present in vector body),percentage of exposed mosquitoes with virus in body as a function of post-exposure duration (secondstressor) and temperature,38,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on infected suckling mice,10,days,NA,NA,NA,NA,NA,Mildura Victoria Australia,field,01/01/1985,4,decimal,-34.188889,142.158333,Aedes alboannulatus,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,alboannulatus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Murray Valley virus,Orthornavirae,Kitrinoviricota,Flasuviricetes,Amarillovirales,Flaviviridae,Flavivirus,Murray Valley encephalitis virus,NA,NA,NA,NA,table 6,Kay et al. 1989. The vector competence of Culex annulirostris Aedes sagax and Aedes alboannulatus for Murray Valley encephalitis virus at different temperatures. Medical and Veterinary Entomology 3:2,10.1111/j.1365-2915.1989.tb00484.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,Mildura genotype. wild caught females. interactor1temp is the laboratory temperature adults were held at for testing,TRUE,01/01/1989
NA,MSSx017,vector competence (infection present in vector body),percentage of exposed mosquitoes with virus in body as a function of post-exposure duration (secondstressor) and temperature,55,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on infected suckling mice,13,days,NA,NA,NA,NA,NA,Mildura Victoria Australia,field,01/01/1985,4,decimal,-34.188889,142.158333,Aedes alboannulatus,NA,NA,NA,31,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,alboannulatus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Murray Valley virus,Orthornavirae,Kitrinoviricota,Flasuviricetes,Amarillovirales,Flaviviridae,Flavivirus,Murray Valley encephalitis virus,NA,NA,NA,NA,table 6,Kay et al. 1989. The vector competence of Culex annulirostris Aedes sagax and Aedes alboannulatus for Murray Valley encephalitis virus at different temperatures. Medical and Veterinary Entomology 3:2,10.1111/j.1365-2915.1989.tb00484.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,Mildura genotype. wild caught females. interactor1temp is the laboratory temperature adults were held at for testing,TRUE,01/01/1989
NA,MSSx017,vector competence (infection present in vector body),percentage of exposed mosquitoes with virus in body as a function of post-exposure duration (secondstressor) and temperature,39,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on infected suckling mice,16,days,NA,NA,NA,NA,NA,Mildura Victoria Australia,field,01/01/1985,4,decimal,-34.188889,142.158333,Aedes alboannulatus,NA,NA,NA,23,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,alboannulatus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Murray Valley virus,Orthornavirae,Kitrinoviricota,Flasuviricetes,Amarillovirales,Flaviviridae,Flavivirus,Murray Valley encephalitis virus,NA,NA,NA,NA,table 6,Kay et al. 1989. The vector competence of Culex annulirostris Aedes sagax and Aedes alboannulatus for Murray Valley encephalitis virus at different temperatures. Medical and Veterinary Entomology 3:2,10.1111/j.1365-2915.1989.tb00484.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,Mildura genotype. wild caught females. interactor1temp is the laboratory temperature adults were held at for testing,TRUE,01/01/1989
NA,MSSx017,vector competence (infection present in vector body),percentage of exposed mosquitoes with virus in body as a function of post-exposure duration (secondstressor) and temperature,33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on infected suckling mice,17,days,NA,NA,NA,NA,NA,Mildura Victoria Australia,field,01/01/1985,4,decimal,-34.188889,142.158333,Aedes alboannulatus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,alboannulatus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Murray Valley virus,Orthornavirae,Kitrinoviricota,Flasuviricetes,Amarillovirales,Flaviviridae,Flavivirus,Murray Valley encephalitis virus,NA,NA,NA,NA,table 6,Kay et al. 1989. The vector competence of Culex annulirostris Aedes sagax and Aedes alboannulatus for Murray Valley encephalitis virus at different temperatures. Medical and Veterinary Entomology 3:2,10.1111/j.1365-2915.1989.tb00484.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,Mildura genotype. wild caught females. interactor1temp is the laboratory temperature adults were held at for testing,TRUE,01/01/1989
NA,MSSx017,vector competence (infection present in vector body),percentage of exposed mosquitoes with virus in body as a function of post-exposure duration (secondstressor) and temperature,33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on infected suckling mice,18,days,NA,NA,NA,NA,NA,Mildura Victoria Australia,field,01/01/1985,4,decimal,-34.188889,142.158333,Aedes alboannulatus,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,alboannulatus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Murray Valley virus,Orthornavirae,Kitrinoviricota,Flasuviricetes,Amarillovirales,Flaviviridae,Flavivirus,Murray Valley encephalitis virus,NA,NA,NA,NA,table 6,Kay et al. 1989. The vector competence of Culex annulirostris Aedes sagax and Aedes alboannulatus for Murray Valley encephalitis virus at different temperatures. Medical and Veterinary Entomology 3:2,10.1111/j.1365-2915.1989.tb00484.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,Mildura genotype. wild caught females. interactor1temp is the laboratory temperature adults were held at for testing,TRUE,01/01/1989
NA,MSSx018,vector competence (infection present in vector body),percentage of exposed mosquitoes with virus in body as a function of post-exposure duration (secondstressor) and temperature,83,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on infected suckling mice,10,days,NA,NA,NA,NA,NA,Mildura Victoria Australia,field,01/01/1985,4,decimal,-34.188889,142.158333,Aedes sagax,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,sagax,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Murray Valley virus,Orthornavirae,Kitrinoviricota,Flasuviricetes,Amarillovirales,Flaviviridae,Flavivirus,Murray Valley encephalitis virus,NA,NA,NA,NA,table 6,Kay et al. 1989. The vector competence of Culex annulirostris Aedes sagax and Aedes alboannulatus for Murray Valley encephalitis virus at different temperatures. Medical and Veterinary Entomology 3:2,10.1111/j.1365-2915.1989.tb00484.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,Mildura genotype. wild caught females. interactor1temp is the laboratory temperature adults were held at for testing. secondstressorvalue is the midpoint between the range of 16 to 18 days,TRUE,01/01/1989
NA,MSSx018,vector competence (infection present in vector body),percentage of exposed mosquitoes with virus in body as a function of post-exposure duration (secondstressor) and temperature,84,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on infected suckling mice,15,days,NA,NA,NA,NA,NA,Mildura Victoria Australia,field,01/01/1985,4,decimal,-34.188889,142.158333,Aedes sagax,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,sagax,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Murray Valley virus,Orthornavirae,Kitrinoviricota,Flasuviricetes,Amarillovirales,Flaviviridae,Flavivirus,Murray Valley encephalitis virus,NA,NA,NA,NA,table 6,Kay et al. 1989. The vector competence of Culex annulirostris Aedes sagax and Aedes alboannulatus for Murray Valley encephalitis virus at different temperatures. Medical and Veterinary Entomology 3:2,10.1111/j.1365-2915.1989.tb00484.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,Mildura genotype. wild caught females. interactor1temp is the laboratory temperature adults were held at for testing. secondstressorvalue is the midpoint between the range of 16 to 18 days,TRUE,01/01/1989
NA,MSSx018,vector competence (infection present in vector body),percentage of exposed mosquitoes with virus in body as a function of post-exposure duration (secondstressor) and temperature,85,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on infected suckling mice,17,days,NA,NA,NA,NA,NA,Mildura Victoria Australia,field,01/01/1985,4,decimal,-34.188889,142.158333,Aedes sagax,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,sagax,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Murray Valley virus,Orthornavirae,Kitrinoviricota,Flasuviricetes,Amarillovirales,Flaviviridae,Flavivirus,Murray Valley encephalitis virus,NA,NA,NA,NA,table 6,Kay et al. 1989. The vector competence of Culex annulirostris Aedes sagax and Aedes alboannulatus for Murray Valley encephalitis virus at different temperatures. Medical and Veterinary Entomology 3:2,10.1111/j.1365-2915.1989.tb00484.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,Mildura genotype. wild caught females. interactor1temp is the laboratory temperature adults were held at for testing. secondstressorvalue is the midpoint between the range of 16 to 18 days,TRUE,01/01/1989
NA,MSSx019,vector competence (infection present in vector salivary glands),percentage of exposed mosquitoes with virus in body as a function of post-exposure duration (secondstressor) and temperature,9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on infected suckling mice,7,days,NA,NA,NA,NA,NA,Mildura Victoria Australia,field,01/01/1985,4,decimal,-34.188889,142.158333,Aedes alboannulatus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,alboannulatus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Murray Valley virus,Orthornavirae,Kitrinoviricota,Flasuviricetes,Amarillovirales,Flaviviridae,Flavivirus,Murray Valley encephalitis virus,NA,NA,NA,NA,table 6,Kay et al. 1989. The vector competence of Culex annulirostris Aedes sagax and Aedes alboannulatus for Murray Valley encephalitis virus at different temperatures. Medical and Veterinary Entomology 3:2,10.1111/j.1365-2915.1989.tb00484.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,Mildura genotype. wild caught females. interactor1temp is the laboratory temperature adults were held at for testing,TRUE,01/01/1989
NA,MSSx019,vector competence (infection present in vector salivary glands),percentage of exposed mosquitoes with virus in salivary glands as a function of post-exposure duration (secondstressor) and temperature,8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on infected suckling mice,10,days,NA,NA,NA,NA,NA,Mildura Victoria Australia,field,01/01/1985,4,decimal,-34.188889,142.158333,Aedes alboannulatus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,alboannulatus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Murray Valley virus,Orthornavirae,Kitrinoviricota,Flasuviricetes,Amarillovirales,Flaviviridae,Flavivirus,Murray Valley encephalitis virus,NA,NA,NA,NA,table 6,Kay et al. 1989. The vector competence of Culex annulirostris Aedes sagax and Aedes alboannulatus for Murray Valley encephalitis virus at different temperatures. Medical and Veterinary Entomology 3:2,10.1111/j.1365-2915.1989.tb00484.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,Mildura genotype. wild caught females. interactor1temp is the laboratory temperature adults were held at for testing,TRUE,01/01/1989
NA,MSSx019,vector competence (infection present in vector salivary glands),percentage of exposed mosquitoes with virus in salivary glands as a function of post-exposure duration (secondstressor) and temperature,48,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on infected suckling mice,13,days,NA,NA,NA,NA,NA,Mildura Victoria Australia,field,01/01/1985,4,decimal,-34.188889,142.158333,Aedes alboannulatus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,alboannulatus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Murray Valley virus,Orthornavirae,Kitrinoviricota,Flasuviricetes,Amarillovirales,Flaviviridae,Flavivirus,Murray Valley encephalitis virus,NA,NA,NA,NA,table 6,Kay et al. 1989. The vector competence of Culex annulirostris Aedes sagax and Aedes alboannulatus for Murray Valley encephalitis virus at different temperatures. Medical and Veterinary Entomology 3:2,10.1111/j.1365-2915.1989.tb00484.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,Mildura genotype. wild caught females. interactor1temp is the laboratory temperature adults were held at for testing,TRUE,01/01/1989
NA,MSSx019,vector competence (infection present in vector salivary glands),percentage of exposed mosquitoes with virus in salivary glands as a function of post-exposure duration (secondstressor) and temperature,35,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on infected suckling mice,16,days,NA,NA,NA,NA,NA,Mildura Victoria Australia,field,01/01/1985,4,decimal,-34.188889,142.158333,Aedes alboannulatus,NA,NA,NA,31,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,alboannulatus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Murray Valley virus,Orthornavirae,Kitrinoviricota,Flasuviricetes,Amarillovirales,Flaviviridae,Flavivirus,Murray Valley encephalitis virus,NA,NA,NA,NA,table 6,Kay et al. 1989. The vector competence of Culex annulirostris Aedes sagax and Aedes alboannulatus for Murray Valley encephalitis virus at different temperatures. Medical and Veterinary Entomology 3:2,10.1111/j.1365-2915.1989.tb00484.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,Mildura genotype. wild caught females. interactor1temp is the laboratory temperature adults were held at for testing,TRUE,01/01/1989
NA,MSSx019,vector competence (infection present in vector salivary glands),percentage of exposed mosquitoes with virus in salivary glands as a function of post-exposure duration (secondstressor) and temperature,27,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on infected suckling mice,17,days,NA,NA,NA,NA,NA,Mildura Victoria Australia,field,01/01/1985,4,decimal,-34.188889,142.158333,Aedes alboannulatus,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,alboannulatus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Murray Valley virus,Orthornavirae,Kitrinoviricota,Flasuviricetes,Amarillovirales,Flaviviridae,Flavivirus,Murray Valley encephalitis virus,NA,NA,NA,NA,table 6,Kay et al. 1989. The vector competence of Culex annulirostris Aedes sagax and Aedes alboannulatus for Murray Valley encephalitis virus at different temperatures. Medical and Veterinary Entomology 3:2,10.1111/j.1365-2915.1989.tb00484.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,Mildura genotype. wild caught females. interactor1temp is the laboratory temperature adults were held at for testing,TRUE,01/01/1989
NA,MSSx019,vector competence (infection present in vector salivary glands),percentage of exposed mosquitoes with virus in salivary glands as a function of post-exposure duration (secondstressor) and temperature,22,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on infected suckling mice,18,days,NA,NA,NA,NA,NA,Mildura Victoria Australia,field,01/01/1985,4,decimal,-34.188889,142.158333,Aedes alboannulatus,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,alboannulatus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Murray Valley virus,Orthornavirae,Kitrinoviricota,Flasuviricetes,Amarillovirales,Flaviviridae,Flavivirus,Murray Valley encephalitis virus,NA,NA,NA,NA,table 6,Kay et al. 1989. The vector competence of Culex annulirostris Aedes sagax and Aedes alboannulatus for Murray Valley encephalitis virus at different temperatures. Medical and Veterinary Entomology 3:2,10.1111/j.1365-2915.1989.tb00484.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,Mildura genotype. wild caught females. interactor1temp is the laboratory temperature adults were held at for testing,TRUE,01/01/1989
NA,MSSx020,vector competence (infection present in vector salivary glands),percentage of exposed mosquitoes with virus in salivary glands as a function of post-exposure duration (secondstressor) and temperature,42,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on infected suckling mice,10,days,NA,NA,NA,NA,NA,Mildura Victoria Australia,field,01/01/1985,4,decimal,-34.188889,142.158333,Aedes sagax,NA,NA,NA,42,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,sagax,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Murray Valley virus,Orthornavirae,Kitrinoviricota,Flasuviricetes,Amarillovirales,Flaviviridae,Flavivirus,Murray Valley encephalitis virus,NA,NA,NA,NA,table 6,Kay et al. 1989. The vector competence of Culex annulirostris Aedes sagax and Aedes alboannulatus for Murray Valley encephalitis virus at different temperatures. Medical and Veterinary Entomology 3:2,10.1111/j.1365-2915.1989.tb00484.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,Mildura genotype. wild caught females. interactor1temp is the laboratory temperature adults were held at for testing,TRUE,01/01/1989
NA,MSSx020,vector competence (infection present in vector salivary glands),percentage of exposed mosquitoes with virus in salivary glands as a function of post-exposure duration (secondstressor) and temperature,72,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on infected suckling mice,15,days,NA,NA,NA,NA,NA,Mildura Victoria Australia,field,01/01/1985,4,decimal,-34.188889,142.158333,Aedes sagax,NA,NA,NA,72,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,sagax,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Murray Valley virus,Orthornavirae,Kitrinoviricota,Flasuviricetes,Amarillovirales,Flaviviridae,Flavivirus,Murray Valley encephalitis virus,NA,NA,NA,NA,table 6,Kay et al. 1989. The vector competence of Culex annulirostris Aedes sagax and Aedes alboannulatus for Murray Valley encephalitis virus at different temperatures. Medical and Veterinary Entomology 3:2,10.1111/j.1365-2915.1989.tb00484.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,Mildura genotype. wild caught females. interactor1temp is the laboratory temperature adults were held at for testing,TRUE,01/01/1989
NA,MSSx020,vector competence (infection present in vector salivary glands),percentage of exposed mosquitoes with virus in salivary glands as a function of post-exposure duration (secondstressor) and temperature,85,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on infected suckling mice,17,days,NA,NA,NA,NA,NA,Mildura Victoria Australia,field,01/01/1985,4,decimal,-34.188889,142.158333,Aedes sagax,NA,NA,NA,85,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,sagax,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Murray Valley virus,Orthornavirae,Kitrinoviricota,Flasuviricetes,Amarillovirales,Flaviviridae,Flavivirus,Murray Valley encephalitis virus,NA,NA,NA,NA,table 6,Kay et al. 1989. The vector competence of Culex annulirostris Aedes sagax and Aedes alboannulatus for Murray Valley encephalitis virus at different temperatures. Medical and Veterinary Entomology 3:2,10.1111/j.1365-2915.1989.tb00484.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,Mildura genotype. wild caught females. interactor1temp is the laboratory temperature adults were held at for testing,TRUE,01/01/1989
NA,MSSx021,viral titers (body),mean concentration of virus based on Tissue Culture Infectious Dose assay,2.3,log10 TC ID50,1.3,1.3,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on infected suckling mice,7,days,NA,NA,NA,NA,NA,Mildura Victoria Australia,field,01/01/1985,4,decimal,-34.188889,142.158333,Aedes alboannulatus,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,alboannulatus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Murray Valley virus,Orthornavirae,Kitrinoviricota,Flasuviricetes,Amarillovirales,Flaviviridae,Flavivirus,Murray Valley encephalitis virus,NA,NA,NA,NA,table 6,Kay et al. 1989. The vector competence of Culex annulirostris Aedes sagax and Aedes alboannulatus for Murray Valley encephalitis virus at different temperatures. Medical and Veterinary Entomology 3:2,10.1111/j.1365-2915.1989.tb00484.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,Mildura genotype. wild caught females. interactor1temp is the laboratory temperature adults were held at for testing,TRUE,01/01/1989
NA,MSSx021,viral titers (body),mean concentration of virus based on Tissue Culture Infectious Dose assay,3.3,log10 TC ID50,1.2,1.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on infected suckling mice,10,days,NA,NA,NA,NA,NA,Mildura Victoria Australia,field,01/01/1985,4,decimal,-34.188889,142.158333,Aedes alboannulatus,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,alboannulatus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Murray Valley virus,Orthornavirae,Kitrinoviricota,Flasuviricetes,Amarillovirales,Flaviviridae,Flavivirus,Murray Valley encephalitis virus,NA,NA,NA,NA,table 6,Kay et al. 1989. The vector competence of Culex annulirostris Aedes sagax and Aedes alboannulatus for Murray Valley encephalitis virus at different temperatures. Medical and Veterinary Entomology 3:2,10.1111/j.1365-2915.1989.tb00484.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,Mildura genotype. wild caught females. interactor1temp is the laboratory temperature adults were held at for testing,TRUE,01/01/1989
NA,MSSx021,viral titers (body),mean concentration of virus based on Tissue Culture Infectious Dose assay,4.5,log10 TC ID50,3.5,3.5,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on infected suckling mice,13,days,NA,NA,NA,NA,NA,Mildura Victoria Australia,field,01/01/1985,4,decimal,-34.188889,142.158333,Aedes alboannulatus,NA,NA,NA,31,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,alboannulatus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Murray Valley virus,Orthornavirae,Kitrinoviricota,Flasuviricetes,Amarillovirales,Flaviviridae,Flavivirus,Murray Valley encephalitis virus,NA,NA,NA,NA,table 6,Kay et al. 1989. The vector competence of Culex annulirostris Aedes sagax and Aedes alboannulatus for Murray Valley encephalitis virus at different temperatures. Medical and Veterinary Entomology 3:2,10.1111/j.1365-2915.1989.tb00484.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,Mildura genotype. wild caught females. interactor1temp is the laboratory temperature adults were held at for testing,TRUE,01/01/1989
NA,MSSx021,viral titers (body),mean concentration of virus based on Tissue Culture Infectious Dose assay,3.4,log10 TC ID50,1.9,1.9,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on infected suckling mice,16,days,NA,NA,NA,NA,NA,Mildura Victoria Australia,field,01/01/1985,4,decimal,-34.188889,142.158333,Aedes alboannulatus,NA,NA,NA,23,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,alboannulatus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Murray Valley virus,Orthornavirae,Kitrinoviricota,Flasuviricetes,Amarillovirales,Flaviviridae,Flavivirus,Murray Valley encephalitis virus,NA,NA,NA,NA,table 6,Kay et al. 1989. The vector competence of Culex annulirostris Aedes sagax and Aedes alboannulatus for Murray Valley encephalitis virus at different temperatures. Medical and Veterinary Entomology 3:2,10.1111/j.1365-2915.1989.tb00484.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,Mildura genotype. wild caught females. interactor1temp is the laboratory temperature adults were held at for testing,TRUE,01/01/1989
NA,MSSx021,viral titers (body),mean concentration of virus based on Tissue Culture Infectious Dose assay,4.7,log10 TC ID50,2,2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on infected suckling mice,17,days,NA,NA,NA,NA,NA,Mildura Victoria Australia,field,01/01/1985,4,decimal,-34.188889,142.158333,Aedes alboannulatus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,alboannulatus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Murray Valley virus,Orthornavirae,Kitrinoviricota,Flasuviricetes,Amarillovirales,Flaviviridae,Flavivirus,Murray Valley encephalitis virus,NA,NA,NA,NA,table 6,Kay et al. 1989. The vector competence of Culex annulirostris Aedes sagax and Aedes alboannulatus for Murray Valley encephalitis virus at different temperatures. Medical and Veterinary Entomology 3:2,10.1111/j.1365-2915.1989.tb00484.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,Mildura genotype. wild caught females. interactor1temp is the laboratory temperature adults were held at for testing,TRUE,01/01/1989
NA,MSSx022,viral titers (body),mean concentration of virus based on Tissue Culture Infectious Dose assay,5.1,log10 TC ID50,1.8,1.8,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on infected suckling mice,10,days,NA,NA,NA,NA,NA,Mildura Victoria Australia,field,01/01/1985,4,decimal,-34.188889,142.158333,Aedes sagax,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,sagax,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Murray Valley virus,Orthornavirae,Kitrinoviricota,Flasuviricetes,Amarillovirales,Flaviviridae,Flavivirus,Murray Valley encephalitis virus,NA,NA,NA,NA,table 6,Kay et al. 1989. The vector competence of Culex annulirostris Aedes sagax and Aedes alboannulatus for Murray Valley encephalitis virus at different temperatures. Medical and Veterinary Entomology 3:2,10.1111/j.1365-2915.1989.tb00484.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,Mildura genotype. wild caught females. interactor1temp is the laboratory temperature adults were held at for testing,TRUE,01/01/1989
NA,MSSx022,viral titers (body),mean concentration of virus based on Tissue Culture Infectious Dose assay,6.6,log10 TC ID50,1.6,1.6,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on infected suckling mice,15,days,NA,NA,NA,NA,NA,Mildura Victoria Australia,field,01/01/1985,4,decimal,-34.188889,142.158333,Aedes sagax,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,sagax,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Murray Valley virus,Orthornavirae,Kitrinoviricota,Flasuviricetes,Amarillovirales,Flaviviridae,Flavivirus,Murray Valley encephalitis virus,NA,NA,NA,NA,table 6,Kay et al. 1989. The vector competence of Culex annulirostris Aedes sagax and Aedes alboannulatus for Murray Valley encephalitis virus at different temperatures. Medical and Veterinary Entomology 3:2,10.1111/j.1365-2915.1989.tb00484.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,Mildura genotype. wild caught females. interactor1temp is the laboratory temperature adults were held at for testing,TRUE,01/01/1989
NA,MSSx023,viral titers (salivary glands),mean concentration of virus based on Tissue Culture Infectious Dose assay,0.5,log10 TC ID50,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on infected suckling mice,7,days,NA,NA,NA,NA,NA,Mildura Victoria Australia,field,01/01/1985,4,decimal,-34.188889,142.158333,Aedes alboannulatus,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,alboannulatus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Murray Valley virus,Orthornavirae,Kitrinoviricota,Flasuviricetes,Amarillovirales,Flaviviridae,Flavivirus,Murray Valley encephalitis virus,NA,NA,NA,NA,table 6,Kay et al. 1989. The vector competence of Culex annulirostris Aedes sagax and Aedes alboannulatus for Murray Valley encephalitis virus at different temperatures. Medical and Veterinary Entomology 3:2,10.1111/j.1365-2915.1989.tb00484.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,Mildura genotype. wild caught females. interactor1temp is the laboratory temperature adults were held at for testing,TRUE,01/01/1989
NA,MSSx023,viral titers (salivary glands),mean concentration of virus based on Tissue Culture Infectious Dose assay,1.7,log10 TC ID50,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on infected suckling mice,10,days,NA,NA,NA,NA,NA,Mildura Victoria Australia,field,01/01/1985,4,decimal,-34.188889,142.158333,Aedes alboannulatus,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,alboannulatus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Murray Valley virus,Orthornavirae,Kitrinoviricota,Flasuviricetes,Amarillovirales,Flaviviridae,Flavivirus,Murray Valley encephalitis virus,NA,NA,NA,NA,table 6,Kay et al. 1989. The vector competence of Culex annulirostris Aedes sagax and Aedes alboannulatus for Murray Valley encephalitis virus at different temperatures. Medical and Veterinary Entomology 3:2,10.1111/j.1365-2915.1989.tb00484.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,Mildura genotype. wild caught females. interactor1temp is the laboratory temperature adults were held at for testing,TRUE,01/01/1989
NA,MSSx023,viral titers (salivary glands),mean concentration of virus based on Tissue Culture Infectious Dose assay,1.8,log10 TC ID50,0.7,0.7,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on infected suckling mice,13,days,NA,NA,NA,NA,NA,Mildura Victoria Australia,field,01/01/1985,4,decimal,-34.188889,142.158333,Aedes alboannulatus,NA,NA,NA,31,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,alboannulatus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Murray Valley virus,Orthornavirae,Kitrinoviricota,Flasuviricetes,Amarillovirales,Flaviviridae,Flavivirus,Murray Valley encephalitis virus,NA,NA,NA,NA,table 6,Kay et al. 1989. The vector competence of Culex annulirostris Aedes sagax and Aedes alboannulatus for Murray Valley encephalitis virus at different temperatures. Medical and Veterinary Entomology 3:2,10.1111/j.1365-2915.1989.tb00484.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,Mildura genotype. wild caught females. interactor1temp is the laboratory temperature adults were held at for testing,TRUE,01/01/1989
NA,MSSx023,viral titers (salivary glands),mean concentration of virus based on Tissue Culture Infectious Dose assay,1.1,log10 TC ID50,0.7,0.7,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on infected suckling mice,16,days,NA,NA,NA,NA,NA,Mildura Victoria Australia,field,01/01/1985,4,decimal,-34.188889,142.158333,Aedes alboannulatus,NA,NA,NA,23,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,alboannulatus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Murray Valley virus,Orthornavirae,Kitrinoviricota,Flasuviricetes,Amarillovirales,Flaviviridae,Flavivirus,Murray Valley encephalitis virus,NA,NA,NA,NA,table 6,Kay et al. 1989. The vector competence of Culex annulirostris Aedes sagax and Aedes alboannulatus for Murray Valley encephalitis virus at different temperatures. Medical and Veterinary Entomology 3:2,10.1111/j.1365-2915.1989.tb00484.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,Mildura genotype. wild caught females. interactor1temp is the laboratory temperature adults were held at for testing,TRUE,01/01/1989
NA,MSSx023,viral titers (salivary glands),mean concentration of virus based on Tissue Culture Infectious Dose assay,3.1,log10 TC ID50,1.4,1.4,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on infected suckling mice,17,days,NA,NA,NA,NA,NA,Mildura Victoria Australia,field,01/01/1985,4,decimal,-34.188889,142.158333,Aedes alboannulatus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,alboannulatus,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Murray Valley virus,Orthornavirae,Kitrinoviricota,Flasuviricetes,Amarillovirales,Flaviviridae,Flavivirus,Murray Valley encephalitis virus,NA,NA,NA,NA,table 6,Kay et al. 1989. The vector competence of Culex annulirostris Aedes sagax and Aedes alboannulatus for Murray Valley encephalitis virus at different temperatures. Medical and Veterinary Entomology 3:2,10.1111/j.1365-2915.1989.tb00484.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,Mildura genotype. wild caught females. interactor1temp is the laboratory temperature adults were held at for testing,TRUE,01/01/1989
NA,MSSx024,viral titers (salivary glands),mean concentration of virus based on Tissue Culture Infectious Dose assay,1.9,log10 TC ID50,0.9,0.9,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on infected suckling mice,10,days,NA,NA,NA,NA,NA,Mildura Victoria Australia,field,01/01/1985,4,decimal,-34.188889,142.158333,Aedes sagax,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,sagax,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Murray Valley virus,Orthornavirae,Kitrinoviricota,Flasuviricetes,Amarillovirales,Flaviviridae,Flavivirus,Murray Valley encephalitis virus,NA,NA,NA,NA,table 6,Kay et al. 1989. The vector competence of Culex annulirostris Aedes sagax and Aedes alboannulatus for Murray Valley encephalitis virus at different temperatures. Medical and Veterinary Entomology 3:2,10.1111/j.1365-2915.1989.tb00484.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,Mildura genotype. wild caught females. interactor1temp is the laboratory temperature adults were held at for testing,TRUE,01/01/1989
NA,MSSx024,viral titers (salivary glands),mean concentration of virus based on Tissue Culture Infectious Dose assay,1.9,log10 TC ID50,0.9,0.9,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-exposure duration,duration after feeding on infected suckling mice,15,days,NA,NA,NA,NA,NA,Mildura Victoria Australia,field,01/01/1985,4,decimal,-34.188889,142.158333,Aedes sagax,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,sagax,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Murray Valley virus,Orthornavirae,Kitrinoviricota,Flasuviricetes,Amarillovirales,Flaviviridae,Flavivirus,Murray Valley encephalitis virus,NA,NA,NA,NA,table 6,Kay et al. 1989. The vector competence of Culex annulirostris Aedes sagax and Aedes alboannulatus for Murray Valley encephalitis virus at different temperatures. Medical and Veterinary Entomology 3:2,10.1111/j.1365-2915.1989.tb00484.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,Mildura genotype. wild caught females. interactor1temp is the laboratory temperature adults were held at for testing,TRUE,01/01/1989
PHXX425,NA,development time,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX426,NA,development time,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX427,NA,development time,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX428,NA,development time,individual-level duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX429,NA,development time,individual-level duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX430,NA,development time,individual-level duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX431,NA,development time,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX432,NA,development time,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX433,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX434,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX435,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX436,NA,development time,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX437,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX438,NA,development time,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX439,NA,development time,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX440,NA,development time,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX441,NA,development time,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX442,NA,development time,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX443,NA,development time,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX444,NA,development time,individual-level duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX445,NA,development time,individual-level duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,NA,pre-oviposition period,duration from adult emergence to first oviposition,45,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,full food: 0.15 mg and 30 mg per larva on days 0 and 1 respectively and 0.60 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Puerto Rico,colony,NA,0,decimal,18.23829209,-66.42451028,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,15.6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,pre-oviposition period,duration from adult emergence to first oviposition,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,full food: 0.15 mg and 30 mg per larva on days 0 and 1 respectively and 0.60 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Puerto Rico,colony,NA,0,decimal,18.23829209,-66.42451028,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,21.1,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,pre-oviposition period,duration from adult emergence to first oviposition,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,full food: 0.15 mg and 30 mg per larva on days 0 and 1 respectively and 0.60 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Puerto Rico,colony,NA,0,decimal,18.23829209,-66.42451028,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,26.7,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,pre-oviposition period,duration from adult emergence to first oviposition,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,full food: 0.15 mg and 30 mg per larva on days 0 and 1 respectively and 0.60 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Puerto Rico,colony,NA,0,decimal,18.23829209,-66.42451028,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,32.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,pre-oviposition period,duration from adult emergence to first oviposition,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,half food: 0.075 mg and 15 mg per larva on days 0 and 1 respectively and 0.30 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Puerto Rico,colony,NA,0,decimal,18.23829209,-66.42451028,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,15.6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,pre-oviposition period,duration from adult emergence to first oviposition,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,half food: 0.075 mg and 15 mg per larva on days 0 and 1 respectively and 0.30 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Puerto Rico,colony,NA,0,decimal,18.23829209,-66.42451028,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,21.1,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,pre-oviposition period,duration from adult emergence to first oviposition,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,half food: 0.075 mg and 15 mg per larva on days 0 and 1 respectively and 0.30 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Puerto Rico,colony,NA,0,decimal,18.23829209,-66.42451028,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,26.7,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,pre-oviposition period,duration from adult emergence to first oviposition,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,half food: 0.075 mg and 15 mg per larva on days 0 and 1 respectively and 0.30 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Puerto Rico,colony,NA,0,decimal,18.23829209,-66.42451028,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,32.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,pre-oviposition period,duration from adult emergence to first oviposition,51,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,quarter food: 0.0375 mg and 0.075 mg per larva on days 0 and 1 respectively and 0.15 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Puerto Rico,colony,NA,0,decimal,18.23829209,-66.42451028,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,15.6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,pre-oviposition period,duration from adult emergence to first oviposition,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,quarter food: 0.0375 mg and 0.075 mg per larva on days 0 and 1 respectively and 0.15 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Puerto Rico,colony,NA,0,decimal,18.23829209,-66.42451028,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,21.1,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,pre-oviposition period,duration from adult emergence to first oviposition,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,quarter food: 0.0375 mg and 0.075 mg per larva on days 0 and 1 respectively and 0.15 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Puerto Rico,colony,NA,0,decimal,18.23829209,-66.42451028,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,26.7,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,pre-oviposition period,duration from adult emergence to first oviposition,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,quarter food: 0.0375 mg and 0.075 mg per larva on days 0 and 1 respectively and 0.15 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Puerto Rico,colony,NA,0,decimal,18.23829209,-66.42451028,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,32.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
PHXX446,NA,development time,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX447,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX448,NA,development time,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX449,NA,development time,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX450,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX451,NA,development time,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX452,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX453,NA,development time,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX454,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX455,NA,development time,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX456,NA,development time,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX457,NA,development time,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX458,NA,development time,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX459,NA,development time,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX460,NA,development time,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX461,NA,development time,individual-level duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX462,NA,development time,individual-level duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX463,NA,development time,individual-level duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX464,NA,development time,individual-level duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX465,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,NA,pre-oviposition period,duration from adult emergence to first oviposition,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,full food: 0.15 mg and 30 mg per larva on days 0 and 1 respectively and 0.60 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Alabama USA,colony,NA,0,decimal,32.88126093,-86.60803135,Aedes triseriatus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,adult,NA,15.6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,trait value set to zero because ovipoistion did not occur at this temperature,TRUE,01/01/1968
NA,NA,pre-oviposition period,duration from adult emergence to first oviposition,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,full food: 0.15 mg and 30 mg per larva on days 0 and 1 respectively and 0.60 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Alabama USA,colony,NA,0,decimal,32.88126093,-86.60803135,Aedes triseriatus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,adult,NA,21.1,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,pre-oviposition period,duration from adult emergence to first oviposition,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,full food: 0.15 mg and 30 mg per larva on days 0 and 1 respectively and 0.60 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Alabama USA,colony,NA,0,decimal,32.88126093,-86.60803135,Aedes triseriatus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,adult,NA,26.7,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,pre-oviposition period,duration from adult emergence to first oviposition,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,full food: 0.15 mg and 30 mg per larva on days 0 and 1 respectively and 0.60 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Alabama USA,colony,NA,0,decimal,32.88126093,-86.60803135,Aedes triseriatus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,adult,NA,32.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,pre-oviposition period,duration from adult emergence to first oviposition,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,half food: 0.075 mg and 15 mg per larva on days 0 and 1 respectively and 0.30 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Alabama USA,colony,NA,0,decimal,32.88126093,-86.60803135,Aedes triseriatus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,adult,NA,15.6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,trait value set to zero because ovipoistion did not occur at this temperature,TRUE,01/01/1968
NA,NA,pre-oviposition period,duration from adult emergence to first oviposition,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,half food: 0.075 mg and 15 mg per larva on days 0 and 1 respectively and 0.30 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Alabama USA,colony,NA,0,decimal,32.88126093,-86.60803135,Aedes triseriatus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,adult,NA,21.1,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,pre-oviposition period,duration from adult emergence to first oviposition,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,half food: 0.075 mg and 15 mg per larva on days 0 and 1 respectively and 0.30 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Alabama USA,colony,NA,0,decimal,32.88126093,-86.60803135,Aedes triseriatus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,adult,NA,26.7,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,pre-oviposition period,duration from adult emergence to first oviposition,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,half food: 0.075 mg and 15 mg per larva on days 0 and 1 respectively and 0.30 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Alabama USA,colony,NA,0,decimal,32.88126093,-86.60803135,Aedes triseriatus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,adult,NA,32.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,pre-oviposition period,duration from adult emergence to first oviposition,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,quarter food: 0.0375 mg and 0.075 mg per larva on days 0 and 1 respectively and 0.15 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Alabama USA,colony,NA,0,decimal,32.88126093,-86.60803135,Aedes triseriatus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,adult,NA,15.6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,trait value set to zero because ovipoistion did not occur at this temperature,TRUE,01/01/1968
NA,NA,pre-oviposition period,duration from adult emergence to first oviposition,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,quarter food: 0.0375 mg and 0.075 mg per larva on days 0 and 1 respectively and 0.15 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Alabama USA,colony,NA,0,decimal,32.88126093,-86.60803135,Aedes triseriatus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,adult,NA,21.1,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,pre-oviposition period,duration from adult emergence to first oviposition,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,quarter food: 0.0375 mg and 0.075 mg per larva on days 0 and 1 respectively and 0.15 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Alabama USA,colony,NA,0,decimal,32.88126093,-86.60803135,Aedes triseriatus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,adult,NA,26.7,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,pre-oviposition period,duration from adult emergence to first oviposition,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,quarter food: 0.0375 mg and 0.075 mg per larva on days 0 and 1 respectively and 0.15 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Alabama USA,colony,NA,0,decimal,32.88126093,-86.60803135,Aedes triseriatus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,adult,NA,32.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,AEL,lifespan,mean entire life span,15.5,days,1.6,1.6,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,200,meters,NA,NA,NA,NA,NA,Chitwan Nepal,field,09/01/2018,4,decimal,27.65126466,84.41192928,Aedes aegypti,NA,whole,NA,34,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,entire lifecycle,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,AEL,lifespan,mean entire life span,22.4,days,2.5,2.5,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,200,meters,NA,NA,NA,NA,NA,Chitwan Nepal,field,09/01/2018,4,decimal,27.65126466,84.41192928,Aedes aegypti,NA,whole,NA,39,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,entire lifecycle,NA,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,AEL,lifespan,mean entire life span,36.5,days,4.7,4.7,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,200,meters,NA,NA,NA,NA,NA,Chitwan Nepal,field,09/01/2018,4,decimal,27.65126466,84.41192928,Aedes aegypti,NA,whole,NA,37,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,entire lifecycle,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,AEL,lifespan,mean entire life span,14.9,days,1.1,1.1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,600,meters,NA,NA,NA,NA,NA,Dhading Nepal,field,09/01/2018,4,decimal,27.91076213,84.8948889,Aedes aegypti,NA,whole,NA,34,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,entire lifecycle,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,AEL,lifespan,mean entire life span,22.4,days,2.5,2.5,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,600,meters,NA,NA,NA,NA,NA,Dhading Nepal,field,09/01/2018,4,decimal,27.91076213,84.8948889,Aedes aegypti,NA,whole,NA,38,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,entire lifecycle,NA,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,AEL,lifespan,mean entire life span,36,days,5.8,5.8,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,600,meters,NA,NA,NA,NA,NA,Dhading Nepal,field,09/01/2018,4,decimal,27.91076213,84.8948889,Aedes aegypti,NA,whole,NA,38,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,entire lifecycle,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,AEL,lifespan,mean entire life span,15.4,days,1.1,1.1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,800,meters,NA,NA,NA,NA,NA,Dharke Nepal,field,09/01/2018,4,decimal,27.73462481,85.13483525,Aedes aegypti,NA,whole,NA,37,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,entire lifecycle,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,AEL,lifespan,mean entire life span,21.2,days,3.3,3.3,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,800,meters,NA,NA,NA,NA,NA,Dharke Nepal,field,09/01/2018,4,decimal,27.73462481,85.13483525,Aedes aegypti,NA,whole,NA,38,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,entire lifecycle,NA,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,AEL,lifespan,mean entire life span,36.1,days,5,5,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,800,meters,NA,NA,NA,NA,NA,Dharke Nepal,field,09/01/2018,4,decimal,27.73462481,85.13483525,Aedes aegypti,NA,whole,NA,38,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,entire lifecycle,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,AEL,lifespan,mean entire life span,15.2,days,1.7,1.7,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,1300,meters,NA,NA,NA,NA,NA,Kathmandu Nepal,field,09/01/2018,4,decimal,27.719444,85.322694,Aedes aegypti,NA,whole,NA,38,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,entire lifecycle,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,AEL,lifespan,mean entire life span,21.8,days,2.8,2.8,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,1300,meters,NA,NA,NA,NA,NA,Kathmandu Nepal,field,09/01/2018,4,decimal,27.719444,85.322694,Aedes aegypti,NA,whole,NA,36,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,entire lifecycle,NA,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,AEL,lifespan,mean entire life span,35.5,days,5.5,5.5,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,1300,meters,NA,NA,NA,NA,NA,Kathmandu Nepal,field,09/01/2018,4,decimal,27.719444,85.322694,Aedes aegypti,NA,whole,NA,41,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,entire lifecycle,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,AES,survival,percent surviving life stage,82.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,200,meters,NA,NA,NA,NA,NA,Chitwan Nepal,field,09/01/2018,4,decimal,27.65126466,84.41192928,Aedes aegypti,NA,whole,NA,33,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=40),TRUE,01/01/2021
NA,AES,survival,percent surviving life stage,90.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,200,meters,NA,NA,NA,NA,NA,Chitwan Nepal,field,09/01/2018,4,decimal,27.65126466,84.41192928,Aedes aegypti,NA,whole,NA,36,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=40),TRUE,01/01/2021
NA,AES,survival,percent surviving life stage,92.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,200,meters,NA,NA,NA,NA,NA,Chitwan Nepal,field,09/01/2018,4,decimal,27.65126466,84.41192928,Aedes aegypti,NA,whole,NA,37,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=40),TRUE,01/01/2021
NA,AES,survival,percent surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,200,meters,NA,NA,NA,NA,NA,Chitwan Nepal,field,09/01/2018,4,decimal,27.65126466,84.41192928,Aedes aegypti,NA,whole,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=40),TRUE,01/01/2021
NA,AES,survival,percent surviving life stage,87.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,600,meters,NA,NA,NA,NA,NA,Dhading Nepal,field,09/01/2018,4,decimal,27.91076213,84.8948889,Aedes aegypti,NA,whole,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=40),TRUE,01/01/2021
NA,AES,survival,percent surviving life stage,92.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,600,meters,NA,NA,NA,NA,NA,Dhading Nepal,field,09/01/2018,4,decimal,27.91076213,84.8948889,Aedes aegypti,NA,whole,NA,37,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=40),TRUE,01/01/2021
NA,AES,survival,percent surviving life stage,95.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,600,meters,NA,NA,NA,NA,NA,Dhading Nepal,field,09/01/2018,4,decimal,27.91076213,84.8948889,Aedes aegypti,NA,whole,NA,38,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=40),TRUE,01/01/2021
NA,AES,survival,percent surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,600,meters,NA,NA,NA,NA,NA,Dhading Nepal,field,09/01/2018,4,decimal,27.91076213,84.8948889,Aedes aegypti,NA,whole,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=40),TRUE,01/01/2021
NA,AES,survival,percent surviving life stage,90.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,800,meters,NA,NA,NA,NA,NA,Dharke Nepal,field,09/01/2018,4,decimal,27.73462481,85.13483525,Aedes aegypti,NA,whole,NA,36,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=40),TRUE,01/01/2021
NA,AES,survival,percent surviving life stage,90.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,800,meters,NA,NA,NA,NA,NA,Dharke Nepal,field,09/01/2018,4,decimal,27.73462481,85.13483525,Aedes aegypti,NA,whole,NA,36,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=40),TRUE,01/01/2021
NA,AES,survival,percent surviving life stage,90.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,800,meters,NA,NA,NA,NA,NA,Dharke Nepal,field,09/01/2018,4,decimal,27.73462481,85.13483525,Aedes aegypti,NA,whole,NA,36,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=40),TRUE,01/01/2021
NA,AES,survival,percent surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,800,meters,NA,NA,NA,NA,NA,Dharke Nepal,field,09/01/2018,4,decimal,27.73462481,85.13483525,Aedes aegypti,NA,whole,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=40),TRUE,01/01/2021
NA,AES,survival,percent surviving life stage,90.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,1300,meters,NA,NA,NA,NA,NA,Kathmandu Nepal,field,09/01/2018,4,decimal,27.719444,85.322694,Aedes aegypti,NA,whole,NA,36,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=40),TRUE,01/01/2021
NA,AES,survival,percent surviving life stage,87.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,1300,meters,NA,NA,NA,NA,NA,Kathmandu Nepal,field,09/01/2018,4,decimal,27.719444,85.322694,Aedes aegypti,NA,whole,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=40),TRUE,01/01/2021
NA,AES,survival,percent surviving life stage,95.4,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,1300,meters,NA,NA,NA,NA,NA,Kathmandu Nepal,field,09/01/2018,4,decimal,27.719444,85.322694,Aedes aegypti,NA,whole,NA,38,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=40),TRUE,01/01/2021
NA,AES,survival,percent surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,1300,meters,NA,NA,NA,NA,NA,Kathmandu Nepal,field,09/01/2018,4,decimal,27.719444,85.322694,Aedes aegypti,NA,whole,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=40),TRUE,01/01/2021
NA,AEW,body size,wing size,282.1,mm,8.2,8.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,200,meters,NA,NA,NA,NA,NA,Chitwan Nepal,field,09/01/2018,4,decimal,27.65126466,84.41192928,Aedes aegypti,NA,part,wing,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,AEW,body size,wing size,303.8,mm,8.4,8.4,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,200,meters,NA,NA,NA,NA,NA,Chitwan Nepal,field,09/01/2018,4,decimal,27.65126466,84.41192928,Aedes aegypti,NA,part,wing,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,AEW,body size,wing size,320.5,mm,11.1,11.1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,200,meters,NA,NA,NA,NA,NA,Chitwan Nepal,field,09/01/2018,4,decimal,27.65126466,84.41192928,Aedes aegypti,NA,part,wing,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,AEW,body size,wing size,282.1,mm,10.2,10.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,600,meters,NA,NA,NA,NA,NA,Dhading Nepal,field,09/01/2018,4,decimal,27.91076213,84.8948889,Aedes aegypti,NA,part,wing,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,AEW,body size,wing size,304.8,mm,8.4,8.4,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,600,meters,NA,NA,NA,NA,NA,Dhading Nepal,field,09/01/2018,4,decimal,27.91076213,84.8948889,Aedes aegypti,NA,part,wing,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,AEW,body size,wing size,319.2,mm,19.2,19.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,600,meters,NA,NA,NA,NA,NA,Dhading Nepal,field,09/01/2018,4,decimal,27.91076213,84.8948889,Aedes aegypti,NA,part,wing,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,AEW,body size,wing size,278.3,mm,16.9,16.9,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,800,meters,NA,NA,NA,NA,NA,Dharke Nepal,field,09/01/2018,4,decimal,27.73462481,85.13483525,Aedes aegypti,NA,part,wing,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,AEW,body size,wing size,298.1,mm,10.2,10.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,800,meters,NA,NA,NA,NA,NA,Dharke Nepal,field,09/01/2018,4,decimal,27.73462481,85.13483525,Aedes aegypti,NA,part,wing,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,AEW,body size,wing size,321,mm,14.9,14.9,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,800,meters,NA,NA,NA,NA,NA,Dharke Nepal,field,09/01/2018,4,decimal,27.73462481,85.13483525,Aedes aegypti,NA,part,wing,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,AEW,body size,wing size,286.6,mm,8.4,8.4,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,1300,meters,NA,NA,NA,NA,NA,Kathmandu Nepal,field,09/01/2018,4,decimal,27.719444,85.322694,Aedes aegypti,NA,part,wing,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,AEW,body size,wing size,303,mm,12.8,12.8,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,1300,meters,NA,NA,NA,NA,NA,Kathmandu Nepal,field,09/01/2018,4,decimal,27.719444,85.322694,Aedes aegypti,NA,part,wing,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,AEW,body size,wing size,326.8,mm,9.1,9.1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,1300,meters,NA,NA,NA,NA,NA,Kathmandu Nepal,field,09/01/2018,4,decimal,27.719444,85.322694,Aedes aegypti,NA,part,wing,23,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,AEW,body size,wing size,212.1,mm,8.4,8.4,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,200,meters,NA,NA,NA,NA,NA,Chitwan Nepal,field,09/01/2018,4,decimal,27.65126466,84.41192928,Aedes aegypti,NA,part,wing,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,AEW,body size,wing size,229,mm,4.8,4.8,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,200,meters,NA,NA,NA,NA,NA,Chitwan Nepal,field,09/01/2018,4,decimal,27.65126466,84.41192928,Aedes aegypti,NA,part,wing,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,AEW,body size,wing size,248.9,mm,7.8,7.8,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,200,meters,NA,NA,NA,NA,NA,Chitwan Nepal,field,09/01/2018,4,decimal,27.65126466,84.41192928,Aedes aegypti,NA,part,wing,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,AEW,body size,wing size,216.2,mm,4.9,4.9,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,600,meters,NA,NA,NA,NA,NA,Dhading Nepal,field,09/01/2018,4,decimal,27.91076213,84.8948889,Aedes aegypti,NA,part,wing,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,AEW,body size,wing size,230.6,mm,9.3,9.3,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,600,meters,NA,NA,NA,NA,NA,Dhading Nepal,field,09/01/2018,4,decimal,27.91076213,84.8948889,Aedes aegypti,NA,part,wing,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,AEW,body size,wing size,252.6,mm,9.7,9.7,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,600,meters,NA,NA,NA,NA,NA,Dhading Nepal,field,09/01/2018,4,decimal,27.91076213,84.8948889,Aedes aegypti,NA,part,wing,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,AEW,body size,wing size,211.9,mm,6.6,6.6,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,800,meters,NA,NA,NA,NA,NA,Dharke Nepal,field,09/01/2018,4,decimal,27.73462481,85.13483525,Aedes aegypti,NA,part,wing,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,AEW,body size,wing size,226.8,mm,11.2,11.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,800,meters,NA,NA,NA,NA,NA,Dharke Nepal,field,09/01/2018,4,decimal,27.73462481,85.13483525,Aedes aegypti,NA,part,wing,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,AEW,body size,wing size,249,mm,9,9,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,800,meters,NA,NA,NA,NA,NA,Dharke Nepal,field,09/01/2018,4,decimal,27.73462481,85.13483525,Aedes aegypti,NA,part,wing,22,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,AEW,body size,wing size,213.9,mm,5.9,5.9,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,1300,meters,NA,NA,NA,NA,NA,Kathmandu Nepal,field,09/01/2018,4,decimal,27.719444,85.322694,Aedes aegypti,NA,part,wing,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,AEW,body size,wing size,230.7,mm,7,7,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,1300,meters,NA,NA,NA,NA,NA,Kathmandu Nepal,field,09/01/2018,4,decimal,27.719444,85.322694,Aedes aegypti,NA,part,wing,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,AEW,body size,wing size,253.8,mm,7.5,7.5,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,1300,meters,NA,NA,NA,NA,NA,Kathmandu Nepal,field,09/01/2018,4,decimal,27.719444,85.322694,Aedes aegypti,NA,part,wing,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,ALL,lifespan,mean entire life span,35.7,days,4,4,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,200,meters,NA,NA,NA,NA,NA,Chitwan Nepal,field,09/01/2018,4,decimal,27.65126466,84.41192928,Aedes albopictus,NA,whole,NA,37,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,entire lifecycle,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,ALL,lifespan,mean entire life span,15.2,days,1.5,1.5,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,800,meters,NA,NA,NA,NA,NA,Dharke Nepal,field,09/01/2018,4,decimal,27.4404,85.086,Aedes albopictus,NA,whole,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,entire lifecycle,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,ALL,lifespan,mean entire life span,21.4,days,2.7,2.7,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,800,meters,NA,NA,NA,NA,NA,Dharke Nepal,field,09/01/2018,4,decimal,27.4404,85.086,Aedes albopictus,NA,whole,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,entire lifecycle,NA,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,ALL,lifespan,mean entire life span,35.3,days,3.8,3.8,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,800,meters,NA,NA,NA,NA,NA,Dharke Nepal,field,09/01/2018,4,decimal,27.4404,85.086,Aedes albopictus,NA,whole,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,entire lifecycle,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,ALL,lifespan,mean entire life span,14.7,days,1.3,1.3,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,920,meters,NA,NA,NA,NA,NA,Naubise Nepal,field,09/01/2018,4,decimal,27.42521,85.10548,Aedes albopictus,NA,whole,NA,34,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,entire lifecycle,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,ALL,lifespan,mean entire life span,21.3,days,2.6,2.6,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,920,meters,NA,NA,NA,NA,NA,Naubise Nepal,field,09/01/2018,4,decimal,27.42521,85.10548,Aedes albopictus,NA,whole,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,entire lifecycle,NA,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,ALL,lifespan,mean entire life span,35.9,days,4.1,4.1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,920,meters,NA,NA,NA,NA,NA,Naubise Nepal,field,09/01/2018,4,decimal,27.42521,85.10548,Aedes albopictus,NA,whole,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,entire lifecycle,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,ALL,lifespan,mean entire life span,14.5,days,1,1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,1300,meters,NA,NA,NA,NA,NA,Kathmandu Nepal,field,09/01/2018,4,decimal,27.71960584,85.32264075,Aedes albopictus,NA,whole,NA,39,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,entire lifecycle,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,ALL,lifespan,mean entire life span,21.7,days,2.3,2.3,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,1300,meters,NA,NA,NA,NA,NA,Kathmandu Nepal,field,09/01/2018,4,decimal,27.71960584,85.32264075,Aedes albopictus,NA,whole,NA,34,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,entire lifecycle,NA,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,ALL,lifespan,mean entire life span,38.2,days,4.6,4.6,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,1300,meters,NA,NA,NA,NA,NA,Kathmandu Nepal,field,09/01/2018,4,decimal,27.71960584,85.32264075,Aedes albopictus,NA,whole,NA,38,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,entire lifecycle,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,ALS,survival,percent surviving life stage,94.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,200,meters,NA,NA,NA,NA,NA,Chitwan Nepal,field,09/01/2018,4,decimal,27.65126466,84.41192928,Aedes albopictus,NA,whole,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,ALS,survival,percent surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,800,meters,NA,NA,NA,NA,NA,Dharke Nepal,field,09/01/2018,4,decimal,27.4404,85.086,Aedes albopictus,NA,whole,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=40),TRUE,01/01/2021
NA,ALS,survival,percent surviving life stage,94.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,800,meters,NA,NA,NA,NA,NA,Dharke Nepal,field,09/01/2018,4,decimal,27.4404,85.086,Aedes albopictus,NA,whole,NA,38,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=40),TRUE,01/01/2021
NA,ALS,survival,percent surviving life stage,94.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,800,meters,NA,NA,NA,NA,NA,Dharke Nepal,field,09/01/2018,4,decimal,27.4404,85.086,Aedes albopictus,NA,whole,NA,38,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=40),TRUE,01/01/2021
NA,ALS,survival,percent surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,800,meters,NA,NA,NA,NA,NA,Dharke Nepal,field,09/01/2018,4,decimal,27.4404,85.086,Aedes albopictus,NA,whole,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=40),TRUE,01/01/2021
NA,ALS,survival,percent surviving life stage,85,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,920,meters,NA,NA,NA,NA,NA,Naubise Nepal,field,09/01/2018,4,decimal,27.42521,85.10548,Aedes albopictus,NA,whole,NA,34,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=40),TRUE,01/01/2021
NA,ALS,survival,percent surviving life stage,80.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,920,meters,NA,NA,NA,NA,NA,Naubise Nepal,field,09/01/2018,4,decimal,27.42521,85.10548,Aedes albopictus,NA,whole,NA,32,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=40),TRUE,01/01/2021
NA,ALS,survival,percent surviving life stage,94.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,920,meters,NA,NA,NA,NA,NA,Naubise Nepal,field,09/01/2018,4,decimal,27.42521,85.10548,Aedes albopictus,NA,whole,NA,38,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=40),TRUE,01/01/2021
NA,ALS,survival,percent surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,920,meters,NA,NA,NA,NA,NA,Naubise Nepal,field,09/01/2018,4,decimal,27.42521,85.10548,Aedes albopictus,NA,whole,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=40),TRUE,01/01/2021
NA,ALS,survival,percent surviving life stage,97.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,1300,meters,NA,NA,NA,NA,NA,Kathmandu Nepal,field,09/01/2018,4,decimal,27.71960584,85.32264075,Aedes albopictus,NA,whole,NA,39,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=40),TRUE,01/01/2021
NA,ALS,survival,percent surviving life stage,82.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,1300,meters,NA,NA,NA,NA,NA,Kathmandu Nepal,field,09/01/2018,4,decimal,27.71960584,85.32264075,Aedes albopictus,NA,whole,NA,33,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=40),TRUE,01/01/2021
NA,ALS,survival,percent surviving life stage,97.4,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,1300,meters,NA,NA,NA,NA,NA,Kathmandu Nepal,field,09/01/2018,4,decimal,27.71960584,85.32264075,Aedes albopictus,NA,whole,NA,39,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=40),TRUE,01/01/2021
NA,ALS,survival,percent surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,1300,meters,NA,NA,NA,NA,NA,Kathmandu Nepal,field,09/01/2018,4,decimal,27.71960584,85.32264075,Aedes albopictus,NA,whole,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=40),TRUE,01/01/2021
NA,ALW,body size,mean wing length,284.8,mm,12.6,12.6,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,200,meters,NA,NA,NA,NA,NA,Chitwan Nepal,field,09/01/2018,4,decimal,27.65126466,84.41192928,Aedes albopictus,NA,part,wing,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,ALW,body size,mean wing length,272.1,mm,8.7,8.7,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,800,meters,NA,NA,NA,NA,NA,Dharke Nepal,field,09/01/2018,4,decimal,27.4404,85.086,Aedes albopictus,NA,part,wing,23,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,ALW,body size,mean wing length,276.6,mm,13.2,13.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,800,meters,NA,NA,NA,NA,NA,Dharke Nepal,field,09/01/2018,4,decimal,27.4404,85.086,Aedes albopictus,NA,part,wing,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,ALW,body size,mean wing length,279.6,mm,10,10,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,800,meters,NA,NA,NA,NA,NA,Dharke Nepal,field,09/01/2018,4,decimal,27.4404,85.086,Aedes albopictus,NA,part,wing,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,ALW,body size,mean wing length,266,mm,6.8,6.8,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,920,meters,NA,NA,NA,NA,NA,Naubise Nepal,field,09/01/2018,4,decimal,27.42521,85.10548,Aedes albopictus,NA,part,wing,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,ALW,body size,mean wing length,274.9,mm,10.5,10.5,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,920,meters,NA,NA,NA,NA,NA,Naubise Nepal,field,09/01/2018,4,decimal,27.42521,85.10548,Aedes albopictus,NA,part,wing,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,ALW,body size,mean wing length,282.6,mm,11.1,11.1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,920,meters,NA,NA,NA,NA,NA,Naubise Nepal,field,09/01/2018,4,decimal,27.42521,85.10548,Aedes albopictus,NA,part,wing,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,ALW,body size,mean wing length,263.6,mm,6.1,6.1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,1300,meters,NA,NA,NA,NA,NA,Kathmandu Nepal,field,09/01/2018,4,decimal,27.71960584,85.32264075,Aedes albopictus,NA,part,wing,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,ALW,body size,mean wing length,278.5,mm,10,10,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,1300,meters,NA,NA,NA,NA,NA,Kathmandu Nepal,field,09/01/2018,4,decimal,27.71960584,85.32264075,Aedes albopictus,NA,part,wing,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,ALW,body size,mean wing length,282.7,mm,15.2,15.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,1300,meters,NA,NA,NA,NA,NA,Kathmandu Nepal,field,09/01/2018,4,decimal,27.71960584,85.32264075,Aedes albopictus,NA,part,wing,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,ALW,body size,mean wing length,230,mm,8.7,8.7,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,200,meters,NA,NA,NA,NA,NA,Chitwan Nepal,field,09/01/2018,4,decimal,27.65126466,84.41192928,Aedes albopictus,NA,part,wing,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,ALW,body size,mean wing length,209.6,mm,6.6,6.6,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,800,meters,NA,NA,NA,NA,NA,Dharke Nepal,field,09/01/2018,4,decimal,27.4404,85.086,Aedes albopictus,NA,part,wing,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,ALW,body size,mean wing length,212.2,mm,13.6,13.6,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,800,meters,NA,NA,NA,NA,NA,Dharke Nepal,field,09/01/2018,4,decimal,27.4404,85.086,Aedes albopictus,NA,part,wing,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,ALW,body size,mean wing length,227.1,mm,11.3,11.3,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,800,meters,NA,NA,NA,NA,NA,Dharke Nepal,field,09/01/2018,4,decimal,27.4404,85.086,Aedes albopictus,NA,part,wing,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,ALW,body size,mean wing length,204.6,mm,9.7,9.7,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,920,meters,NA,NA,NA,NA,NA,Naubise Nepal,field,09/01/2018,4,decimal,27.42521,85.10548,Aedes albopictus,NA,part,wing,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,ALW,body size,mean wing length,218.9,mm,9.8,9.8,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,920,meters,NA,NA,NA,NA,NA,Naubise Nepal,field,09/01/2018,4,decimal,27.42521,85.10548,Aedes albopictus,NA,part,wing,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,ALW,body size,mean wing length,226.5,mm,5.6,5.6,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,920,meters,NA,NA,NA,NA,NA,Naubise Nepal,field,09/01/2018,4,decimal,27.42521,85.10548,Aedes albopictus,NA,part,wing,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2021
NA,ALW,body size,mean wing length,207.3,mm,5,5,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,1300,meters,NA,NA,NA,NA,NA,Kathmandu Nepal,field,09/01/2018,4,decimal,27.71960584,85.32264075,Aedes albopictus,NA,part,wing,21,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is approximate. for each trait value 7 to 14 eggs were tested per replicate (10 to 12 replicates),TRUE,01/01/2021
NA,ALW,body size,mean wing length,219,mm,6.4,6.4,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,1300,meters,NA,NA,NA,NA,NA,Kathmandu Nepal,field,09/01/2018,4,decimal,27.71960584,85.32264075,Aedes albopictus,NA,part,wing,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is approximate. for each trait value 7 to 14 eggs were tested per replicate (10 to 12 replicates),TRUE,01/01/2021
NA,ALW,body size,mean wing length,230,mm,13.6,13.6,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,altitude populations were collected from,1300,meters,NA,NA,NA,NA,NA,Kathmandu Nepal,field,09/01/2018,4,decimal,27.71960584,85.32264075,Aedes albopictus,NA,part,wing,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is approximate. for each trait value 7 to 14 eggs were tested per replicate (10 to 12 replicates),TRUE,01/01/2021
NA,NA,survival,mean percent surviving life stage after non acclimated eggs exposed to low temperature,6.401,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,meters above sea level,200,meters,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/06/2019,3,decimal,27.65114111,84.41198293,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,-2,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is approximate. for each trait value 7 to 14 eggs were tested per replicate (10 to 12 replicates),TRUE,01/01/2021
NA,NA,survival,mean percent surviving life stage after non acclimated eggs exposed to low temperature,20.11,percent,7.27,7.27,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,meters above sea level,600,meters,NA,NA,NA,NA,NA,Dhading Nepal,field,01/06/2019,3,decimal,27.91076213,84.8948889,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,-2,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is approximate. for each trait value 7 to 14 eggs were tested per replicate (10 to 12 replicates),TRUE,01/01/2021
NA,NA,survival,mean percent surviving life stage after non acclimated eggs exposed to low temperature,23.056,percent,7.09,7.09,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,meters above sea level,800,meters,NA,NA,NA,NA,NA,Dharke Nepal,field,01/06/2019,3,decimal,27.73459632,85.13484598,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,-2,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is approximate. for each trait value 7 to 14 eggs were tested per replicate (10 to 12 replicates),TRUE,01/01/2021
NA,NA,survival,mean percent surviving life stage after non acclimated eggs exposed to low temperature,12.238,percent,4.36,4.36,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,meters above sea level,1300,meters,NA,NA,NA,NA,NA,Kathmandu Nepal,field,01/06/2019,3,decimal,27.719444,85.322694,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,-2,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is approximate. for each trait value 7 to 14 eggs were tested per replicate (10 to 12 replicates),TRUE,01/01/2021
NA,NA,survival,mean percent surviving life stage after acclimated eggs exposed to low temperature,36.219,percent,17.9,17.9,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,meters above sea level,200,meters,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/06/2019,3,decimal,27.65114111,84.41198293,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,-2,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is approximate. for each trait value 7 to 14 eggs were tested per replicate (10 to 12 replicates),TRUE,01/01/2021
NA,NA,survival,mean percent surviving life stage after acclimated eggs exposed to low temperature,65.746,percent,19.45,19.45,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,meters above sea level,600,meters,NA,NA,NA,NA,NA,Dhading Nepal,field,01/06/2019,3,decimal,27.91076213,84.8948889,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,-2,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is approximate. for each trait value 7 to 14 eggs were tested per replicate (10 to 12 replicates),TRUE,01/01/2021
NA,NA,survival,mean percent surviving life stage after acclimated eggs exposed to low temperature,16.783,percent,9.36,9.36,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,meters above sea level,1300,meters,NA,NA,NA,NA,NA,Kathmandu Nepal,field,01/06/2019,3,decimal,27.719444,85.322694,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,-2,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is approximate. for each trait value 7 to 14 eggs were tested per replicate (10 to 12 replicates),TRUE,01/01/2021
NA,NA,survival,mean percent surviving life stage after non acclimated eggs exposed to low temperature,42.517,percent,10.98,10.98,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,meters above sea level,200,meters,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/06/2019,3,decimal,27.65114111,84.41198293,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,-2,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is approximate. for each trait value 7 to 14 eggs were tested per replicate (10 to 12 replicates),TRUE,01/01/2021
NA,NA,survival,mean percent surviving life stage after non acclimated eggs exposed to low temperature,40.686,percent,11.35,11.35,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,meters above sea level,800,meters,NA,NA,NA,NA,NA,Dharke Nepal,field,01/06/2019,3,decimal,27.73459632,85.13484598,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,-2,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is approximate. for each trait value 7 to 14 eggs were tested per replicate (10 to 12 replicates),TRUE,01/01/2021
NA,NA,survival,mean percent surviving life stage after non acclimated eggs exposed to low temperature,24.576,percent,7.41,7.41,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,meters above sea level,920,meters,NA,NA,NA,NA,NA,Naubise Nepal,field,01/06/2019,3,decimal,27.71461465,85.18184598,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,-2,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is approximate. for each trait value 7 to 14 eggs were tested per replicate (10 to 12 replicates),TRUE,01/01/2021
NA,NA,survival,mean percent surviving life stage after non acclimated eggs exposed to low temperature,16.155,percent,6.04,6.04,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,meters above sea level,1300,meters,NA,NA,NA,NA,NA,Kathmandu Nepal,field,01/06/2019,3,decimal,27.71957734,85.32268367,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,-2,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is approximate. for each trait value 7 to 14 eggs were tested per replicate (10 to 12 replicates),TRUE,01/01/2021
NA,NA,survival,mean percent surviving life stage after acclimated eggs exposed to low temperature,65.4,percent,15.46,15.46,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,meters above sea level,200,meters,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/06/2019,3,decimal,27.65114111,84.41198293,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,-2,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is approximate. for each trait value 7 to 14 eggs were tested per replicate (10 to 12 replicates),TRUE,01/01/2021
NA,NA,survival,mean percent surviving life stage after acclimated eggs exposed to low temperature,90.114,percent,23.7,23.7,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,meters above sea level,1300,meters,NA,NA,NA,NA,NA,Kathmandu Nepal,field,01/06/2019,3,decimal,27.71957734,85.32268367,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,-2,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is approximate. for each trait value 7 to 14 eggs were tested per replicate (10 to 12 replicates),TRUE,01/01/2021
NA,NA,survival,mean percent surviving life stage after non acclimated eggs exposed to low temperature,10.727,percent,3.45,3.45,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,meters above sea level,200,meters,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/06/2019,3,decimal,27.65114111,84.41198293,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,-6,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is approximate. for each trait value 7 to 14 eggs were tested per replicate (10 to 12 replicates),TRUE,01/01/2021
NA,NA,survival,mean percent surviving life stage after non acclimated eggs exposed to low temperature,25.636,percent,9.9,9.9,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,meters above sea level,600,meters,NA,NA,NA,NA,NA,Dhading Nepal,field,01/06/2019,3,decimal,27.91076213,84.8948889,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,-6,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is approximate. for each trait value 7 to 14 eggs were tested per replicate (10 to 12 replicates),TRUE,01/01/2021
NA,NA,survival,mean percent surviving life stage after non acclimated eggs exposed to low temperature,19.09,percent,6.09,6.09,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,meters above sea level,800,meters,NA,NA,NA,NA,NA,Dharke Nepal,field,01/06/2019,3,decimal,27.73459632,85.13484598,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,-6,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is approximate. for each trait value 7 to 14 eggs were tested per replicate (10 to 12 replicates),TRUE,01/01/2021
NA,NA,survival,mean percent surviving life stage after non acclimated eggs exposed to low temperature,10.545,percent,2.9,2.9,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,meters above sea level,1300,meters,NA,NA,NA,NA,NA,Kathmandu Nepal,field,01/06/2019,3,decimal,27.719444,85.322694,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,-6,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is approximate. for each trait value 7 to 14 eggs were tested per replicate (10 to 12 replicates),TRUE,01/01/2021
NA,NA,survival,mean percent surviving life stage after acclimated eggs exposed to low temperature,15.09,percent,10.36,10.36,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,meters above sea level,200,meters,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/06/2019,3,decimal,27.65114111,84.41198293,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,-6,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is approximate. for each trait value 7 to 14 eggs were tested per replicate (10 to 12 replicates),TRUE,01/01/2021
NA,NA,survival,mean percent surviving life stage after acclimated eggs exposed to low temperature,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,meters above sea level,600,meters,NA,NA,NA,NA,NA,Dhading Nepal,field,01/06/2019,3,decimal,27.91076213,84.8948889,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,-6,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is approximate. for each trait value 7 to 14 eggs were tested per replicate (10 to 12 replicates),TRUE,01/01/2021
NA,NA,survival,mean percent surviving life stage after acclimated eggs exposed to low temperature,13.454,percent,5.54,5.54,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,meters above sea level,1300,meters,NA,NA,NA,NA,NA,Kathmandu Nepal,field,01/06/2019,3,decimal,27.719444,85.322694,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,-6,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is approximate. for each trait value 7 to 14 eggs were tested per replicate (10 to 12 replicates),TRUE,01/01/2021
NA,NA,survival,mean percent surviving life stage after non acclimated eggs exposed to low temperature,23.071,percent,5.62,5.62,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,meters above sea level,200,meters,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/06/2019,3,decimal,27.65114111,84.41198293,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,-6,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is approximate. for each trait value 7 to 14 eggs were tested per replicate (10 to 12 replicates),TRUE,01/01/2021
NA,NA,survival,mean percent surviving life stage after non acclimated eggs exposed to low temperature,13.713,percent,4.91,4.91,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,meters above sea level,800,meters,NA,NA,NA,NA,NA,Dharke Nepal,field,01/06/2019,3,decimal,27.73459632,85.13484598,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,-6,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is approximate. for each trait value 7 to 14 eggs were tested per replicate (10 to 12 replicates),TRUE,01/01/2021
NA,NA,survival,mean percent surviving life stage after non acclimated eggs exposed to low temperature,6.414,percent,3.12,3.12,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,meters above sea level,920,meters,NA,NA,NA,NA,NA,Naubise Nepal,field,01/06/2019,3,decimal,27.71461465,85.18184598,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,-6,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is approximate. for each trait value 7 to 14 eggs were tested per replicate (10 to 12 replicates),TRUE,01/01/2021
NA,NA,survival,mean percent surviving life stage after non acclimated eggs exposed to low temperature,6.66,percent,3.3,3.3,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,meters above sea level,1300,meters,NA,NA,NA,NA,NA,Kathmandu Nepal,field,01/06/2019,3,decimal,27.71957734,85.32268367,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,-6,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is approximate. for each trait value 7 to 14 eggs were tested per replicate (10 to 12 replicates),TRUE,01/01/2021
NA,NA,survival,mean percent surviving life stage after acclimated eggs exposed to low temperature,20.571,percent,8.03,8.03,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,meters above sea level,200,meters,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/06/2019,3,decimal,27.65114111,84.41198293,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,-6,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is approximate. for each trait value 7 to 14 eggs were tested per replicate (10 to 12 replicates),TRUE,01/01/2021
NA,NA,survival,mean percent surviving life stage after acclimated eggs exposed to low temperature,68.981,percent,19.01,19.01,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,altitude,meters above sea level,1300,meters,NA,NA,NA,NA,NA,Kathmandu Nepal,field,01/06/2019,3,decimal,27.71957734,85.32268367,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,-6,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Kramer et al. 2021. The ecophysiological plasticity of Aedes aegypti and Aedes albopictus concerning overwintering in cooler ecoregions is driven by local climate and acclimation capacity. Science of the Total Enviroment 778:146128,10.1016/j.scitotenv.2021.146128,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is approximate. for each trait value 7 to 14 eggs were tested per replicate (10 to 12 replicates),TRUE,01/01/2021
NA,KL01,survival,proportion of individuals emerging as adults as function of eutropication and predation exposore during the juvenile stages,0.294,proportion,0.08,0.08,se,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,oligotrophic rearing conditions,no food was added to mimic rainwater fed breeding containers with realistic nutrient availability,NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,NA,NA,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was not exposed to predation. interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL01,survival,proportion of individuals emerging as adults as function of eutropication and predation exposore during the juvenile stages,0.118,proportion,0.04,0.04,se,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,oligotrophic rearing conditions,no food was added to mimic rainwater fed breeding containers with realistic nutrient availability,NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,NA,NA,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was exposed to predation (1 adult Anisops varia Fieber (Hemiptera: Notonectidae)). interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL01,survival,proportion of individuals emerging as adults as function of eutropication and predation exposore during the juvenile stages,0.274,proportion,0.06,0.06,se,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,euthrophic,a slurry of tap water and impala faeces (Aepyceros melampus Petersi),NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,NA,NA,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was not exposed to predation. interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL01,survival,proportion of individuals emerging as adults as function of eutropication and predation exposore during the juvenile stages,0.433,proportion,0.08,0.08,se,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,euthrophic,a slurry of tap water and impala faeces (Aepyceros melampus Petersi),NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,NA,NA,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was exposed to predation (1 adult Anisops varia Fieber (Hemiptera: Notonectidae)). interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL02,survival,proportion of individuals emerging as adults as function of eutropication and predation exposore during the juvenile stages,0.419,proportion,0.15,0.15,se,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,oligotrophic rearing conditions,no food was added to mimic rainwater fed breeding containers with realistic nutrient availability,NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,NA,NA,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was exposed to predation (1 adult Anisops varia Fieber (Hemiptera: Notonectidae)). interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL02,survival,proportion of individuals emerging as adults as function of eutropication and predation exposore during the juvenile stages,0.464,proportion,0.14,0.14,se,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,oligotrophic rearing conditions,no food was added to mimic rainwater fed breeding containers with realistic nutrient availability,NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,NA,NA,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was not exposed to predation. interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL02,survival,proportion of individuals emerging as adults as function of eutropication and predation exposore during the juvenile stages,0.59,proportion,0.14,0.14,se,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,euthrophic,a slurry of tap water and impala faeces (Aepyceros melampus Petersi),NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,NA,NA,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was not exposed to predation. interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL02,survival,proportion of individuals emerging as adults as function of eutropication and predation exposore during the juvenile stages,0.91,proportion,0.09,0.09,se,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,euthrophic,a slurry of tap water and impala faeces (Aepyceros melampus Petersi),NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,NA,NA,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was exposed to predation (1 adult Anisops varia Fieber (Hemiptera: Notonectidae)). interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL02,survival,proportion of individuals emerging as adults as function of eutropication and predation exposore during the juvenile stages,0.416,proportion,0.15,0.15,se,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,oligotrophic rearing conditions,no food was added to mimic rainwater fed breeding containers with realistic nutrient availability,NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,NA,NA,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4b,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was exposed to predation (1 adult Anisops varia Fieber (Hemiptera: Notonectidae)). interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL02,survival,proportion of individuals emerging as adults as function of eutropication and predation exposore during the juvenile stages,0.689,proportion,0.13,0.13,se,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,oligotrophic rearing conditions,no food was added to mimic rainwater fed breeding containers with realistic nutrient availability,NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,NA,NA,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4b,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was not exposed to predation. interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL02,survival,proportion of individuals emerging as adults as function of eutropication and predation exposore during the juvenile stages,0.916,proportion,0.08,0.08,se,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,euthrophic,a slurry of tap water and impala faeces (Aepyceros melampus Petersi),NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,NA,NA,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4b,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was exposed to predation (1 adult Anisops varia Fieber (Hemiptera: Notonectidae)). interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL02,survival,proportion of individuals emerging as adults as function of eutropication and predation exposore during the juvenile stages,0.919,proportion,0.08,0.08,se,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,euthrophic,a slurry of tap water and impala faeces (Aepyceros melampus Petersi),NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,NA,NA,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4b,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was not exposed to predation. interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL02,survival,1 divided by (the number of emerged adults divided by the number of counted larvae at t = 14 days of a given mesocosm),0.593,proportion,0.15,0.15,se,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,oligotrophic rearing conditions,no food was added to mimic rainwater fed breeding containers with realistic nutrient availability,NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,NA,NA,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4c,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was not exposed to predation. interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL02,survival,1 divided by (the number of emerged adults divided by the number of counted larvae at t = 14 days of a given mesocosm),0.635,proportion,0.13,0.13,se,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,oligotrophic rearing conditions,no food was added to mimic rainwater fed breeding containers with realistic nutrient availability,NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,NA,NA,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4c,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was exposed to predation (1 adult Anisops varia Fieber (Hemiptera: Notonectidae)). interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL02,survival,1 divided by (the number of emerged adults divided by the number of counted larvae at t = 14 days of a given mesocosm),0.515,proportion,0.15,0.15,se,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,euthrophic,a slurry of tap water and impala faeces (Aepyceros melampus Petersi),NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,NA,NA,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4c,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was not exposed to predation. interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL02,survival,1 divided by (the number of emerged adults divided by the number of counted larvae at t = 14 days of a given mesocosm),0.108,proportion,0.05,0.05,se,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,euthrophic,a slurry of tap water and impala faeces (Aepyceros melampus Petersi),NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,NA,NA,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4c,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was exposed to predation (1 adult Anisops varia Fieber (Hemiptera: Notonectidae)). interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
PHXX466,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX467,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX468,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX469,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX470,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX471,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX472,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX473,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX474,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX475,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX476,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX477,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX478,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX479,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX480,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,KL04,survival,proportion surviving life stage function of eutropication and predation exposore during the juvenile stages,0.193,proportion,NA,NA,NA,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,euthrophic,a slurry of tap water and impala faeces (Aepyceros melampus Petersi),NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,20,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S3a,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was not exposed to predation. interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL04,survival,proportion surviving life stage function of eutropication and predation exposore during the juvenile stages,0.251,proportion,NA,NA,NA,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,euthrophic,a slurry of tap water and impala faeces (Aepyceros melampus Petersi),NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,20,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S3a,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was exposed to predation (1 adult Anisops varia Fieber (Hemiptera: Notonectidae)). interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL04,survival,proportion surviving life stage function of eutropication and predation exposore during the juvenile stages,0.038,proportion,NA,NA,NA,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,euthrophic,a slurry of tap water and impala faeces (Aepyceros melampus Petersi),NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,24,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S3a,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was not exposed to predation. interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL04,survival,proportion surviving life stage function of eutropication and predation exposore during the juvenile stages,0.075,proportion,NA,NA,NA,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,euthrophic,a slurry of tap water and impala faeces (Aepyceros melampus Petersi),NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,24,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S3a,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was exposed to predation (1 adult Anisops varia Fieber (Hemiptera: Notonectidae)). interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL04,survival,proportion surviving life stage function of eutropication and predation exposore during the juvenile stages,0.003,proportion,NA,NA,NA,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,euthrophic,a slurry of tap water and impala faeces (Aepyceros melampus Petersi),NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,28,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S3a,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was not exposed to predation. interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL04,survival,proportion surviving life stage function of eutropication and predation exposore during the juvenile stages,0,proportion,NA,NA,NA,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,euthrophic,a slurry of tap water and impala faeces (Aepyceros melampus Petersi),NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,32,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S3a,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was not exposed to predation. interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL04,survival,proportion surviving life stage function of eutropication and predation exposore during the juvenile stages,0.188,proportion,0.15,0.15,se,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,oligotrophic rearing conditions,no food was added to mimic rainwater fed breeding containers with realistic nutrient availability,NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,20,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S3b,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was not exposed to predation. interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL04,survival,proportion surviving life stage function of eutropication and predation exposore during the juvenile stages,0.381,proportion,0.31,0.31,se,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,oligotrophic rearing conditions,no food was added to mimic rainwater fed breeding containers with realistic nutrient availability,NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,20,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S3b,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was exposed to predation (1 adult Anisops varia Fieber (Hemiptera: Notonectidae)). interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL04,survival,proportion surviving life stage function of eutropication and predation exposore during the juvenile stages,0.03,proportion,0.03,0.03,se,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,oligotrophic rearing conditions,no food was added to mimic rainwater fed breeding containers with realistic nutrient availability,NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,24,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S3b,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was not exposed to predation. interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL04,survival,proportion surviving life stage function of eutropication and predation exposore during the juvenile stages,0.321,proportion,0.2,0.2,se,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,oligotrophic rearing conditions,no food was added to mimic rainwater fed breeding containers with realistic nutrient availability,NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,24,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S3b,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was exposed to predation (1 adult Anisops varia Fieber (Hemiptera: Notonectidae)). interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL04,survival,proportion surviving life stage function of eutropication and predation exposore during the juvenile stages,0.206,proportion,0.09,0.09,se,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,oligotrophic rearing conditions,no food was added to mimic rainwater fed breeding containers with realistic nutrient availability,NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,28,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S3b,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was not exposed to predation. interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL04,survival,proportion surviving life stage function of eutropication and predation exposore during the juvenile stages,0.129,proportion,0.1,0.1,se,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,oligotrophic rearing conditions,no food was added to mimic rainwater fed breeding containers with realistic nutrient availability,NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,28,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S3b,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was exposed to predation (1 adult Anisops varia Fieber (Hemiptera: Notonectidae)). interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL04,survival,proportion surviving life stage function of eutropication and predation exposore during the juvenile stages,0.008,proportion,0.09,0.09,se,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,oligotrophic rearing conditions,no food was added to mimic rainwater fed breeding containers with realistic nutrient availability,NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,32,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S3b,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was not exposed to predation. interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL04,survival,proportion surviving life stage function of eutropication and predation exposore during the juvenile stages,0.099,proportion,0.05,0.05,se,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,oligotrophic rearing conditions,no food was added to mimic rainwater fed breeding containers with realistic nutrient availability,NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,32,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S3b,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was exposed to predation (1 adult Anisops varia Fieber (Hemiptera: Notonectidae)). interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL04x,survival,proportion surviving life stage function of eutropication and predation exposure during the juvenile stages,0.287,proportion,0.1,0.07,se,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,euthrophic,a slurry of tap water and impala faeces (Aepyceros melampus Petersi),NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,22,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,20,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S3c,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was not exposed to predation. interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL04,survival,proportion surviving life stage function of eutropication and predation exposure during the juvenile stages,0.103,proportion,0.29,0.2,se,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,euthrophic,a slurry of tap water and impala faeces (Aepyceros melampus Petersi),NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,20,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S3c,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was exposed to predation (1 adult Anisops varia Fieber (Hemiptera: Notonectidae)). interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL04x,survival,proportion surviving life stage function of eutropication and predation exposure during the juvenile stages,0.718,proportion,0.36,0.16,se,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,euthrophic,a slurry of tap water and impala faeces (Aepyceros melampus Petersi),NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,54,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,24,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S3c,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was not exposed to predation. interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL04,survival,proportion surviving life stage function of eutropication and predation exposure during the juvenile stages,0.356,proportion,0.72,0.16,se,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,euthrophic,a slurry of tap water and impala faeces (Aepyceros melampus Petersi),NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,24,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S3c,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was exposed to predation (1 adult Anisops varia Fieber (Hemiptera: Notonectidae)). interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL04x,survival,proportion surviving life stage function of eutropication and predation exposure during the juvenile stages,0.402,proportion,0.44,0.06,se,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,euthrophic,a slurry of tap water and impala faeces (Aepyceros melampus Petersi),NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,28,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S3c,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was not exposed to predation. interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL04,survival,proportion surviving life stage function of eutropication and predation exposure during the juvenile stages,0.443,proportion,0.4,0.04,se,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,euthrophic,a slurry of tap water and impala faeces (Aepyceros melampus Petersi),NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,28,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S3c,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was exposed to predation (1 adult Anisops varia Fieber (Hemiptera: Notonectidae)). interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL04x,survival,proportion surviving life stage function of eutropication and predation exposure during the juvenile stages,0.246,proportion,0,0,se,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,euthrophic,a slurry of tap water and impala faeces (Aepyceros melampus Petersi),NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S3c,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was not exposed to predation. interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL04,survival,proportion surviving life stage function of eutropication and predation exposure during the juvenile stages,0.168,proportion,0.06,0.06,se,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,euthrophic,a slurry of tap water and impala faeces (Aepyceros melampus Petersi),NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S3c,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was exposed to predation (1 adult Anisops varia Fieber (Hemiptera: Notonectidae)). interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL04,survival,proportion surviving life stage function of eutropication and predation exposore during the juvenile stages,0,proportion,0,0,se,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,oligotrophic rearing conditions,no food was added to mimic rainwater fed breeding containers with realistic nutrient availability,NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,20,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S3d,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was not exposed to predation. interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL04,survival,proportion surviving life stage function of eutropication and predation exposore during the juvenile stages,0.171,proportion,0.09,0.09,se,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,oligotrophic rearing conditions,no food was added to mimic rainwater fed breeding containers with realistic nutrient availability,NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,24,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S3d,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was not exposed to predation. interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL04,survival,proportion surviving life stage function of eutropication and predation exposore during the juvenile stages,0.334,proportion,0.09,0.09,se,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,oligotrophic rearing conditions,no food was added to mimic rainwater fed breeding containers with realistic nutrient availability,NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,24,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S3d,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was exposed to predation (1 adult Anisops varia Fieber (Hemiptera: Notonectidae)). interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL04,survival,proportion surviving life stage function of eutropication and predation exposore during the juvenile stages,0.542,proportion,0.39,0.39,se,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,oligotrophic rearing conditions,no food was added to mimic rainwater fed breeding containers with realistic nutrient availability,NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,28,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S3d,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was not exposed to predation. interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL04,survival,proportion surviving life stage function of eutropication and predation exposore during the juvenile stages,0.725,proportion,0.17,0.17,se,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,oligotrophic rearing conditions,no food was added to mimic rainwater fed breeding containers with realistic nutrient availability,NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,28,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S3d,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was exposed to predation (1 adult Anisops varia Fieber (Hemiptera: Notonectidae)). interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL04,survival,proportion surviving life stage function of eutropication and predation exposore during the juvenile stages,0.376,proportion,0.14,0.14,se,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,oligotrophic rearing conditions,no food was added to mimic rainwater fed breeding containers with realistic nutrient availability,NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S3d,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was not exposed to predation. interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL04,survival,proportion surviving life stage function of eutropication and predation exposore during the juvenile stages,0.391,proportion,0.05,0.05,se,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,oligotrophic rearing conditions,no food was added to mimic rainwater fed breeding containers with realistic nutrient availability,NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S3d,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was exposed to predation (1 adult Anisops varia Fieber (Hemiptera: Notonectidae)). interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
PHXX481,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX482,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX483,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX484,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX485,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX486,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX487,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX488,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX489,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX490,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX491,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX492,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX493,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX494,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX495,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX496,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX497,NA,development time,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX498,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX499,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX500,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX501,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX502,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX503,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX504,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX505,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX506,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX507,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX508,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX509,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX510,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX511,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX512,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX513,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX514,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX515,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX516,NA,development time,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,JOE103,mortality,percentage not surviving life stage,100,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,plastic container,1,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,40,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2016
NA,JOE103,mortality,percentage not surviving life stage,100,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,iron container,3,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,40,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2016
NA,JOE103,mortality,percentage not surviving life stage,100,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,earthen pot,2,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,40,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2016
NA,JOE103,mortality,percentage not surviving life stage,50.58,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,plastic container,1,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,76,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,38,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2016
NA,JOE103,mortality,percentage not surviving life stage,100,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,iron container,3,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,38,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2016
NA,JOE103,mortality,percentage not surviving life stage,43.57,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,earthen pot,2,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,65,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,38,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2016
NA,JOE103,mortality,percentage not surviving life stage,21.05,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,plastic container,1,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,32,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2016
NA,JOE103,mortality,percentage not surviving life stage,16.96,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,iron container,3,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2016
NA,JOE103,mortality,percentage not surviving life stage,12.87,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,earthen pot,2,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2016
NA,JOE103,mortality,percentage not surviving life stage,4.09,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,plastic container,1,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2016
NA,JOE103,mortality,percentage not surviving life stage,6.73,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,iron container,3,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2016
NA,JOE103,mortality,percentage not surviving life stage,1.17,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,earthen pot,2,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2016
NA,JOE103,mortality,percentage not surviving life stage,7.89,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,plastic container,1,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2016
NA,JOE103,mortality,percentage not surviving life stage,5.85,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,iron container,3,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2016
NA,JOE103,mortality,percentage not surviving life stage,4.68,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,earthen pot,2,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2016
NA,JOE103,mortality,percentage not surviving life stage,8.19,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,plastic container,1,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2016
NA,JOE103,mortality,percentage not surviving life stage,2.05,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,iron container,3,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2016
NA,JOE103,mortality,percentage not surviving life stage,4.97,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,earthen pot,2,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2016
NA,LIU001,infection rate (DENV-2),number of positive midguts/total number of midguts,100,percent,0,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-infection duration,days post infection,0,days,NA,NA,NA,NA,NA,Guangzhou China,colony,01/01/1981,2,decimal,23.13,113.26,Aedes albopictus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Liu et al. 2017. Temperature Increase Enhances Aedes albopictus Competence to Transmit Dengue Virus. Frontiers in Microbiology 8:2337.,10.3389/fmicb.2017.02337,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2017
NA,LIU001,infection rate (DENV-2),number of positive midguts/total number of midguts,100,percent,0,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-infection duration,days post infection,0,days,NA,NA,NA,NA,NA,Guangzhou China,colony,01/01/1981,2,decimal,23.13,113.26,Aedes albopictus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,23,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Liu et al. 2017. Temperature Increase Enhances Aedes albopictus Competence to Transmit Dengue Virus. Frontiers in Microbiology 8:2337.,10.3389/fmicb.2017.02337,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2017
NA,LIU001,infection rate (DENV-2),number of positive midguts/total number of midguts,100,percent,0,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-infection duration,days post infection,0,days,NA,NA,NA,NA,NA,Guangzhou China,colony,01/01/1981,2,decimal,23.13,113.26,Aedes albopictus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Liu et al. 2017. Temperature Increase Enhances Aedes albopictus Competence to Transmit Dengue Virus. Frontiers in Microbiology 8:2337.,10.3389/fmicb.2017.02337,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2017
NA,LIU001,infection rate (DENV-2),number of positive midguts/total number of midguts,100,percent,0,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-infection duration,days post infection,0,days,NA,NA,NA,NA,NA,Guangzhou China,colony,01/01/1981,2,decimal,23.13,113.26,Aedes albopictus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Liu et al. 2017. Temperature Increase Enhances Aedes albopictus Competence to Transmit Dengue Virus. Frontiers in Microbiology 8:2337.,10.3389/fmicb.2017.02337,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2017
NA,LIU001,infection rate (DENV-2),number of positive midguts/total number of midguts,48.4,percent,14.9,13.6,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-infection duration,days post infection,5,days,NA,NA,NA,NA,NA,Guangzhou China,colony,01/01/1981,2,decimal,23.13,113.26,Aedes albopictus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Liu et al. 2017. Temperature Increase Enhances Aedes albopictus Competence to Transmit Dengue Virus. Frontiers in Microbiology 8:2337.,10.3389/fmicb.2017.02337,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2017
NA,LIU001,infection rate (DENV-2),number of positive midguts/total number of midguts,72.6,percent,13,12.2,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-infection duration,days post infection,5,days,NA,NA,NA,NA,NA,Guangzhou China,colony,01/01/1981,2,decimal,23.13,113.26,Aedes albopictus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,23,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Liu et al. 2017. Temperature Increase Enhances Aedes albopictus Competence to Transmit Dengue Virus. Frontiers in Microbiology 8:2337.,10.3389/fmicb.2017.02337,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2017
NA,LIU001,infection rate (DENV-2),number of positive midguts/total number of midguts,70.4,percent,13.4,12.2,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-infection duration,days post infection,5,days,NA,NA,NA,NA,NA,Guangzhou China,colony,01/01/1981,2,decimal,23.13,113.26,Aedes albopictus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Liu et al. 2017. Temperature Increase Enhances Aedes albopictus Competence to Transmit Dengue Virus. Frontiers in Microbiology 8:2337.,10.3389/fmicb.2017.02337,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2017
NA,LIU001,infection rate (DENV-2),number of positive midguts/total number of midguts,93.4,percent,7.3,6.3,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-infection duration,days post infection,5,days,NA,NA,NA,NA,NA,Guangzhou China,colony,01/01/1981,2,decimal,23.13,113.26,Aedes albopictus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Liu et al. 2017. Temperature Increase Enhances Aedes albopictus Competence to Transmit Dengue Virus. Frontiers in Microbiology 8:2337.,10.3389/fmicb.2017.02337,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2017
NA,LIU001,infection rate (DENV-2),number of positive midguts/total number of midguts,63.2,percent,14.7,13.8,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-infection duration,days post infection,10,days,NA,NA,NA,NA,NA,Guangzhou China,colony,01/01/1981,2,decimal,23.13,113.26,Aedes albopictus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Liu et al. 2017. Temperature Increase Enhances Aedes albopictus Competence to Transmit Dengue Virus. Frontiers in Microbiology 8:2337.,10.3389/fmicb.2017.02337,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2017
NA,LIU001,infection rate (DENV-2),number of positive midguts/total number of midguts,80.9,percent,11.6,10.4,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-infection duration,days post infection,10,days,NA,NA,NA,NA,NA,Guangzhou China,colony,01/01/1981,2,decimal,23.13,113.26,Aedes albopictus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,23,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Liu et al. 2017. Temperature Increase Enhances Aedes albopictus Competence to Transmit Dengue Virus. Frontiers in Microbiology 8:2337.,10.3389/fmicb.2017.02337,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2017
NA,LIU001,infection rate (DENV-2),number of positive midguts/total number of midguts,91.1,percent,8.5,7.1,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-infection duration,days post infection,10,days,NA,NA,NA,NA,NA,Guangzhou China,colony,01/01/1981,2,decimal,23.13,113.26,Aedes albopictus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Liu et al. 2017. Temperature Increase Enhances Aedes albopictus Competence to Transmit Dengue Virus. Frontiers in Microbiology 8:2337.,10.3389/fmicb.2017.02337,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2017
NA,LIU001,infection rate (DENV-2),number of positive midguts/total number of midguts,93.3,percent,7.5,6.1,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-infection duration,days post infection,10,days,NA,NA,NA,NA,NA,Guangzhou China,colony,01/01/1981,2,decimal,23.13,113.26,Aedes albopictus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Liu et al. 2017. Temperature Increase Enhances Aedes albopictus Competence to Transmit Dengue Virus. Frontiers in Microbiology 8:2337.,10.3389/fmicb.2017.02337,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2017
NA,LIU001,infection rate (DENV-2),number of positive midguts/total number of midguts,71.7,percent,13.8,12.7,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-infection duration,days post infection,15,days,NA,NA,NA,NA,NA,Guangzhou China,colony,01/01/1981,2,decimal,23.13,113.26,Aedes albopictus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Liu et al. 2017. Temperature Increase Enhances Aedes albopictus Competence to Transmit Dengue Virus. Frontiers in Microbiology 8:2337.,10.3389/fmicb.2017.02337,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2017
NA,LIU001,infection rate (DENV-2),number of positive midguts/total number of midguts,95.5,percent,6.3,5.3,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-infection duration,days post infection,15,days,NA,NA,NA,NA,NA,Guangzhou China,colony,01/01/1981,2,decimal,23.13,113.26,Aedes albopictus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,23,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Liu et al. 2017. Temperature Increase Enhances Aedes albopictus Competence to Transmit Dengue Virus. Frontiers in Microbiology 8:2337.,10.3389/fmicb.2017.02337,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2017
NA,LIU001,infection rate (DENV-2),number of positive midguts/total number of midguts,84.7,percent,11.6,10.4,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-infection duration,days post infection,15,days,NA,NA,NA,NA,NA,Guangzhou China,colony,01/01/1981,2,decimal,23.13,113.26,Aedes albopictus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Liu et al. 2017. Temperature Increase Enhances Aedes albopictus Competence to Transmit Dengue Virus. Frontiers in Microbiology 8:2337.,10.3389/fmicb.2017.02337,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2017
NA,LIU001,infection rate (DENV-2),number of positive midguts/total number of midguts,88.7,percent,9.4,8.7,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-infection duration,days post infection,15,days,NA,NA,NA,NA,NA,Guangzhou China,colony,01/01/1981,2,decimal,23.13,113.26,Aedes albopictus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Liu et al. 2017. Temperature Increase Enhances Aedes albopictus Competence to Transmit Dengue Virus. Frontiers in Microbiology 8:2337.,10.3389/fmicb.2017.02337,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2017
NA,LIU002,dissemination rate (DENV-2),number of positive ovaries/number of positive midguts,0,percent,0,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-infection duration,days post infection,0,days,NA,NA,NA,NA,NA,Guangzhou China,colony,01/01/1981,2,decimal,23.13,113.26,Aedes albopictus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Liu et al. 2017. Temperature Increase Enhances Aedes albopictus Competence to Transmit Dengue Virus. Frontiers in Microbiology 8:2337.,10.3389/fmicb.2017.02337,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2017
NA,LIU002,dissemination rate (DENV-2),number of positive ovaries/number of positive midguts,0,percent,0,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-infection duration,days post infection,0,days,NA,NA,NA,NA,NA,Guangzhou China,colony,01/01/1981,2,decimal,23.13,113.26,Aedes albopictus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,23,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Liu et al. 2017. Temperature Increase Enhances Aedes albopictus Competence to Transmit Dengue Virus. Frontiers in Microbiology 8:2337.,10.3389/fmicb.2017.02337,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2017
NA,LIU002,dissemination rate (DENV-2),number of positive ovaries/number of positive midguts,0,percent,0,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-infection duration,days post infection,0,days,NA,NA,NA,NA,NA,Guangzhou China,colony,01/01/1981,2,decimal,23.13,113.26,Aedes albopictus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Liu et al. 2017. Temperature Increase Enhances Aedes albopictus Competence to Transmit Dengue Virus. Frontiers in Microbiology 8:2337.,10.3389/fmicb.2017.02337,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2017
NA,LIU002,dissemination rate (DENV-2),number of positive ovaries/number of positive midguts,0,percent,0,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-infection duration,days post infection,0,days,NA,NA,NA,NA,NA,Guangzhou China,colony,01/01/1981,2,decimal,23.13,113.26,Aedes albopictus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Liu et al. 2017. Temperature Increase Enhances Aedes albopictus Competence to Transmit Dengue Virus. Frontiers in Microbiology 8:2337.,10.3389/fmicb.2017.02337,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2017
NA,LIU002,dissemination rate (DENV-2),number of positive ovaries/number of positive midguts,0,percent,0,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-infection duration,days post infection,5,days,NA,NA,NA,NA,NA,Guangzhou China,colony,01/01/1981,2,decimal,23.13,113.26,Aedes albopictus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Liu et al. 2017. Temperature Increase Enhances Aedes albopictus Competence to Transmit Dengue Virus. Frontiers in Microbiology 8:2337.,10.3389/fmicb.2017.02337,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2017
NA,LIU002,dissemination rate (DENV-2),number of positive ovaries/number of positive midguts,0,percent,0,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-infection duration,days post infection,5,days,NA,NA,NA,NA,NA,Guangzhou China,colony,01/01/1981,2,decimal,23.13,113.26,Aedes albopictus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,23,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Liu et al. 2017. Temperature Increase Enhances Aedes albopictus Competence to Transmit Dengue Virus. Frontiers in Microbiology 8:2337.,10.3389/fmicb.2017.02337,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2017
NA,LIU002,dissemination rate (DENV-2),number of positive ovaries/number of positive midguts,0,percent,0,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-infection duration,days post infection,5,days,NA,NA,NA,NA,NA,Guangzhou China,colony,01/01/1981,2,decimal,23.13,113.26,Aedes albopictus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Liu et al. 2017. Temperature Increase Enhances Aedes albopictus Competence to Transmit Dengue Virus. Frontiers in Microbiology 8:2337.,10.3389/fmicb.2017.02337,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2017
NA,LIU002,dissemination rate (DENV-2),number of positive ovaries/number of positive midguts,41.8,percent,15.1,13.6,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-infection duration,days post infection,5,days,NA,NA,NA,NA,NA,Guangzhou China,colony,01/01/1981,2,decimal,23.13,113.26,Aedes albopictus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Liu et al. 2017. Temperature Increase Enhances Aedes albopictus Competence to Transmit Dengue Virus. Frontiers in Microbiology 8:2337.,10.3389/fmicb.2017.02337,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2017
NA,LIU002,dissemination rate (DENV-2),number of positive ovaries/number of positive midguts,0,percent,0,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-infection duration,days post infection,10,days,NA,NA,NA,NA,NA,Guangzhou China,colony,01/01/1981,2,decimal,23.13,113.26,Aedes albopictus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Liu et al. 2017. Temperature Increase Enhances Aedes albopictus Competence to Transmit Dengue Virus. Frontiers in Microbiology 8:2337.,10.3389/fmicb.2017.02337,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2017
NA,LIU002,dissemination rate (DENV-2),number of positive ovaries/number of positive midguts,7.4,percent,8.8,7.4,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-infection duration,days post infection,10,days,NA,NA,NA,NA,NA,Guangzhou China,colony,01/01/1981,2,decimal,23.13,113.26,Aedes albopictus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,23,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Liu et al. 2017. Temperature Increase Enhances Aedes albopictus Competence to Transmit Dengue Virus. Frontiers in Microbiology 8:2337.,10.3389/fmicb.2017.02337,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2017
NA,LIU002,dissemination rate (DENV-2),number of positive ovaries/number of positive midguts,40.5,percent,15.3,13.8,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-infection duration,days post infection,10,days,NA,NA,NA,NA,NA,Guangzhou China,colony,01/01/1981,2,decimal,23.13,113.26,Aedes albopictus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Liu et al. 2017. Temperature Increase Enhances Aedes albopictus Competence to Transmit Dengue Virus. Frontiers in Microbiology 8:2337.,10.3389/fmicb.2017.02337,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2017
NA,LIU002,dissemination rate (DENV-2),number of positive ovaries/number of positive midguts,79.8,percent,12.2,11.1,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-infection duration,days post infection,10,days,NA,NA,NA,NA,NA,Guangzhou China,colony,01/01/1981,2,decimal,23.13,113.26,Aedes albopictus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Liu et al. 2017. Temperature Increase Enhances Aedes albopictus Competence to Transmit Dengue Virus. Frontiers in Microbiology 8:2337.,10.3389/fmicb.2017.02337,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2017
NA,LIU002,dissemination rate (DENV-2),number of positive ovaries/number of positive midguts,0,percent,0,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-infection duration,days post infection,15,days,NA,NA,NA,NA,NA,Guangzhou China,colony,01/01/1981,2,decimal,23.13,113.26,Aedes albopictus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Liu et al. 2017. Temperature Increase Enhances Aedes albopictus Competence to Transmit Dengue Virus. Frontiers in Microbiology 8:2337.,10.3389/fmicb.2017.02337,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2017
NA,LIU002,dissemination rate (DENV-2),number of positive ovaries/number of positive midguts,35.5,percent,14.5,13.7,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-infection duration,days post infection,15,days,NA,NA,NA,NA,NA,Guangzhou China,colony,01/01/1981,2,decimal,23.13,113.26,Aedes albopictus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,23,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Liu et al. 2017. Temperature Increase Enhances Aedes albopictus Competence to Transmit Dengue Virus. Frontiers in Microbiology 8:2337.,10.3389/fmicb.2017.02337,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2017
NA,LIU002,dissemination rate (DENV-2),number of positive ovaries/number of positive midguts,76.1,percent,14.9,13.3,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-infection duration,days post infection,15,days,NA,NA,NA,NA,NA,Guangzhou China,colony,01/01/1981,2,decimal,23.13,113.26,Aedes albopictus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Liu et al. 2017. Temperature Increase Enhances Aedes albopictus Competence to Transmit Dengue Virus. Frontiers in Microbiology 8:2337.,10.3389/fmicb.2017.02337,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2017
NA,LIU002,dissemination rate (DENV-2),number of positive ovaries/number of positive midguts,87.4,percent,10.7,9.5,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-infection duration,days post infection,15,days,NA,NA,NA,NA,NA,Guangzhou China,colony,01/01/1981,2,decimal,23.13,113.26,Aedes albopictus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Liu et al. 2017. Temperature Increase Enhances Aedes albopictus Competence to Transmit Dengue Virus. Frontiers in Microbiology 8:2337.,10.3389/fmicb.2017.02337,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2017
NA,LIU003,population transmission rate (DENV-2),number of positive salivary glands/total number of tested mosquitoes,0,percent,0,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-infection duration,days post infection,0,days,NA,NA,NA,NA,NA,Guangzhou China,colony,01/01/1981,2,decimal,23.13,113.26,Aedes albopictus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Liu et al. 2017. Temperature Increase Enhances Aedes albopictus Competence to Transmit Dengue Virus. Frontiers in Microbiology 8:2337.,10.3389/fmicb.2017.02337,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2017
NA,LIU003,population transmission rate (DENV-2),number of positive salivary glands/total number of tested mosquitoes,0,percent,0,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-infection duration,days post infection,0,days,NA,NA,NA,NA,NA,Guangzhou China,colony,01/01/1981,2,decimal,23.13,113.26,Aedes albopictus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,23,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Liu et al. 2017. Temperature Increase Enhances Aedes albopictus Competence to Transmit Dengue Virus. Frontiers in Microbiology 8:2337.,10.3389/fmicb.2017.02337,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2017
NA,LIU003,population transmission rate (DENV-2),number of positive salivary glands/total number of tested mosquitoes,0,percent,0,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-infection duration,days post infection,0,days,NA,NA,NA,NA,NA,Guangzhou China,colony,01/01/1981,2,decimal,23.13,113.26,Aedes albopictus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Liu et al. 2017. Temperature Increase Enhances Aedes albopictus Competence to Transmit Dengue Virus. Frontiers in Microbiology 8:2337.,10.3389/fmicb.2017.02337,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2017
NA,LIU003,population transmission rate (DENV-2),number of positive salivary glands/total number of tested mosquitoes,0,percent,0,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-infection duration,days post infection,0,days,NA,NA,NA,NA,NA,Guangzhou China,colony,01/01/1981,2,decimal,23.13,113.26,Aedes albopictus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Liu et al. 2017. Temperature Increase Enhances Aedes albopictus Competence to Transmit Dengue Virus. Frontiers in Microbiology 8:2337.,10.3389/fmicb.2017.02337,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2017
NA,LIU003,population transmission rate (DENV-2),number of positive salivary glands/total number of tested mosquitoes,0,percent,0,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-infection duration,days post infection,5,days,NA,NA,NA,NA,NA,Guangzhou China,colony,01/01/1981,2,decimal,23.13,113.26,Aedes albopictus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Liu et al. 2017. Temperature Increase Enhances Aedes albopictus Competence to Transmit Dengue Virus. Frontiers in Microbiology 8:2337.,10.3389/fmicb.2017.02337,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2017
NA,LIU003,population transmission rate (DENV-2),number of positive salivary glands/total number of tested mosquitoes,0,percent,0,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-infection duration,days post infection,5,days,NA,NA,NA,NA,NA,Guangzhou China,colony,01/01/1981,2,decimal,23.13,113.26,Aedes albopictus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,23,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Liu et al. 2017. Temperature Increase Enhances Aedes albopictus Competence to Transmit Dengue Virus. Frontiers in Microbiology 8:2337.,10.3389/fmicb.2017.02337,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2017
NA,LIU003,population transmission rate (DENV-2),number of positive salivary glands/total number of tested mosquitoes,0,percent,0,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-infection duration,days post infection,5,days,NA,NA,NA,NA,NA,Guangzhou China,colony,01/01/1981,2,decimal,23.13,113.26,Aedes albopictus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Liu et al. 2017. Temperature Increase Enhances Aedes albopictus Competence to Transmit Dengue Virus. Frontiers in Microbiology 8:2337.,10.3389/fmicb.2017.02337,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2017
NA,LIU003,population transmission rate (DENV-2),number of positive salivary glands/total number of tested mosquitoes,37,percent,14.2,13.4,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-infection duration,days post infection,5,days,NA,NA,NA,NA,NA,Guangzhou China,colony,01/01/1981,2,decimal,23.13,113.26,Aedes albopictus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Liu et al. 2017. Temperature Increase Enhances Aedes albopictus Competence to Transmit Dengue Virus. Frontiers in Microbiology 8:2337.,10.3389/fmicb.2017.02337,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2017
NA,LIU003,population transmission rate (DENV-2),number of positive salivary glands/total number of tested mosquitoes,0,percent,0,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-infection duration,days post infection,10,days,NA,NA,NA,NA,NA,Guangzhou China,colony,01/01/1981,2,decimal,23.13,113.26,Aedes albopictus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Liu et al. 2017. Temperature Increase Enhances Aedes albopictus Competence to Transmit Dengue Virus. Frontiers in Microbiology 8:2337.,10.3389/fmicb.2017.02337,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2017
NA,LIU003,population transmission rate (DENV-2),number of positive salivary glands/total number of tested mosquitoes,7.7,percent,8,7.5,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-infection duration,days post infection,10,days,NA,NA,NA,NA,NA,Guangzhou China,colony,01/01/1981,2,decimal,23.13,113.26,Aedes albopictus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,23,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Liu et al. 2017. Temperature Increase Enhances Aedes albopictus Competence to Transmit Dengue Virus. Frontiers in Microbiology 8:2337.,10.3389/fmicb.2017.02337,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2017
NA,LIU003,population transmission rate (DENV-2),number of positive salivary glands/total number of tested mosquitoes,49.2,percent,14.9,13.5,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-infection duration,days post infection,10,days,NA,NA,NA,NA,NA,Guangzhou China,colony,01/01/1981,2,decimal,23.13,113.26,Aedes albopictus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Liu et al. 2017. Temperature Increase Enhances Aedes albopictus Competence to Transmit Dengue Virus. Frontiers in Microbiology 8:2337.,10.3389/fmicb.2017.02337,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2017
NA,LIU003,population transmission rate (DENV-2),number of positive salivary glands/total number of tested mosquitoes,70.1,percent,13.6,12.2,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-infection duration,days post infection,10,days,NA,NA,NA,NA,NA,Guangzhou China,colony,01/01/1981,2,decimal,23.13,113.26,Aedes albopictus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Liu et al. 2017. Temperature Increase Enhances Aedes albopictus Competence to Transmit Dengue Virus. Frontiers in Microbiology 8:2337.,10.3389/fmicb.2017.02337,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2017
NA,LIU003,population transmission rate (DENV-2),number of positive salivary glands/total number of tested mosquitoes,0,percent,0,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-infection duration,days post infection,15,days,NA,NA,NA,NA,NA,Guangzhou China,colony,01/01/1981,2,decimal,23.13,113.26,Aedes albopictus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Liu et al. 2017. Temperature Increase Enhances Aedes albopictus Competence to Transmit Dengue Virus. Frontiers in Microbiology 8:2337.,10.3389/fmicb.2017.02337,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2017
NA,LIU003,population transmission rate (DENV-2),number of positive salivary glands/total number of tested mosquitoes,29.2,percent,13.6,12.8,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-infection duration,days post infection,15,days,NA,NA,NA,NA,NA,Guangzhou China,colony,01/01/1981,2,decimal,23.13,113.26,Aedes albopictus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,23,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Liu et al. 2017. Temperature Increase Enhances Aedes albopictus Competence to Transmit Dengue Virus. Frontiers in Microbiology 8:2337.,10.3389/fmicb.2017.02337,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2017
NA,LIU003,population transmission rate (DENV-2),number of positive salivary glands/total number of tested mosquitoes,69.5,percent,14.6,13.6,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-infection duration,days post infection,15,days,NA,NA,NA,NA,NA,Guangzhou China,colony,01/01/1981,2,decimal,23.13,113.26,Aedes albopictus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Liu et al. 2017. Temperature Increase Enhances Aedes albopictus Competence to Transmit Dengue Virus. Frontiers in Microbiology 8:2337.,10.3389/fmicb.2017.02337,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2017
NA,LIU003,population transmission rate (DENV-2),number of positive salivary glands/total number of tested mosquitoes,88.6,percent,9.3,8.8,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,post-infection duration,days post infection,15,days,NA,NA,NA,NA,NA,Guangzhou China,colony,01/01/1981,2,decimal,23.13,113.26,Aedes albopictus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Liu et al. 2017. Temperature Increase Enhances Aedes albopictus Competence to Transmit Dengue Virus. Frontiers in Microbiology 8:2337.,10.3389/fmicb.2017.02337,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2017
PHXX517,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX518,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX519,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX520,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX521,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX522,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX523,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX524,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX525,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX526,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX527,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX528,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX529,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX530,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX531,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,PHX5831,fecundity,mean lifetime eggs,3.5,eggs individual-1,1.44,1.44,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.220811,-35.917033,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals (n=100) multiplied by 0.5 to give an assumed sex ratio of 50:50,TRUE,01/01/2016
NA,PHX5831,fecundity,mean lifetime eggs,79.22,eggs individual-1,11.2,11.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.220811,-35.917033,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals (n=100) multiplied by 0.5 to give an assumed sex ratio of 50:50,TRUE,01/01/2016
NA,PHX5831,fecundity,mean lifetime eggs,64.42,eggs individual-1,8.65,8.65,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.220811,-35.917033,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals (n=100) multiplied by 0.5 to give an assumed sex ratio of 50:50,TRUE,01/01/2016
NA,PHX5831,fecundity,mean lifetime eggs,40.4,eggs individual-1,11.7,11.7,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.220811,-35.917033,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals (n=100) multiplied by 0.5 to give an assumed sex ratio of 50:50,TRUE,01/01/2016
NA,PHX5831,fecundity,mean lifetime eggs,16.12,eggs individual-1,8.83,8.83,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.220811,-35.917033,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals (n=100) multiplied by 0.5 to give an assumed sex ratio of 50:50,TRUE,01/01/2016
NA,PHX58411,longevity,mean duration of life stage,12.93,days,2.44,2.44,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.220811,-35.917033,Aedes aegypti,Yellow fever mosquito,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2016
NA,PHX58411,longevity,mean duration of life stage,25.44,days,4.13,4.13,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.220811,-35.917033,Aedes aegypti,Yellow fever mosquito,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2016
NA,PHX58411,longevity,mean duration of life stage,23.3,days,2.16,2.16,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.220811,-35.917033,Aedes aegypti,Yellow fever mosquito,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2016
NA,PHX58411,longevity,mean duration of life stage,15.05,days,3.33,3.33,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.220811,-35.917033,Aedes aegypti,Yellow fever mosquito,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2016
NA,PHX58411,longevity,mean duration of life stage,7.1,days,1.45,1.45,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.220811,-35.917033,Aedes aegypti,Yellow fever mosquito,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2016
NA,PHX58411,longevity,mean duration of life stage,10.89,days,3.83,3.83,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.220811,-35.917033,Aedes aegypti,Yellow fever mosquito,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,16,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2016
NA,PHX58411,longevity,mean duration of life stage,29.26,days,2.03,2.03,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.220811,-35.917033,Aedes aegypti,Yellow fever mosquito,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2016
NA,PHX58411,longevity,mean duration of life stage,21.94,days,3.32,3.32,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.220811,-35.917033,Aedes aegypti,Yellow fever mosquito,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,28,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2016
NA,PHX58411,longevity,mean duration of life stage,14.75,days,5.11,5.11,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.220811,-35.917033,Aedes aegypti,Yellow fever mosquito,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2016
NA,PHX58411,longevity,mean duration of life stage,8.32,days,1.5,1.5,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.220811,-35.917033,Aedes aegypti,Yellow fever mosquito,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,41.42,days,2.56,2.56,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.220811,-35.917033,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,16,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,24.76,days,1.06,1.06,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.220811,-35.917033,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,11.59,days,0.57,0.57,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.220811,-35.917033,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,28,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,11.92,days,0.43,0.43,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.220811,-35.917033,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,10.13,days,1.29,1.29,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.220811,-35.917033,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,13.4,days,0.47,0.47,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.220811,-35.917033,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,16,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,7.98,days,0.59,0.59,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.220811,-35.917033,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,3.35,days,0.62,0.62,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.220811,-35.917033,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,28,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,2.7,days,0.41,0.41,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.220811,-35.917033,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,3.66,days,0.59,0.59,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.220811,-35.917033,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,20.51,days,1.45,1.45,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.220811,-35.917033,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,16,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,13.4,days,0.54,0.54,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.220811,-35.917033,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,6.16,days,0.63,0.63,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.220811,-35.917033,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,28,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,6.7,days,0.37,0.37,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.220811,-35.917033,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,5.17,days,0.79,0.79,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.220811,-35.917033,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,6.97,days,1.53,1.53,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.220811,-35.917033,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,16,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,3.68,days,0.7,0.7,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.220811,-35.917033,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,2.08,days,0.48,0.48,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.220811,-35.917033,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,28,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,2.51,days,0.33,0.33,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.220811,-35.917033,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,1.29,days,0.3,0.3,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.220811,-35.917033,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,27.48,days,1.45,1.45,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.220811,-35.917033,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,16,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,estimated using table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,17.08,days,0.54,0.54,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.220811,-35.917033,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,estimated using table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,8.24,days,0.63,0.63,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.220811,-35.917033,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,28,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,estimated using table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,9.21,days,0.7,0.7,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.220811,-35.917033,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,estimated using table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,6.46,days,0.79,0.79,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.220811,-35.917033,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,estimated using table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX5831,fecundity,mean lifetime eggs individual-1,2.75,eggs individual-1,1.51,1.51,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Joao Pessoa Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.136389,-34.852592,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals (n=100) multiplied by 0.5 to give an assumed sex ratio of 50:50,TRUE,01/01/2016
NA,PHX5831,fecundity,mean lifetime eggs individual-1,161.5,eggs individual-1,7.34,7.34,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Joao Pessoa Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.136389,-34.852592,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals (n=100) multiplied by 0.5 to give an assumed sex ratio of 50:50,TRUE,01/01/2016
NA,PHX5831,fecundity,mean lifetime eggs individual-1,262.3,eggs individual-1,19.7,19.7,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Joao Pessoa Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.136389,-34.852592,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals (n=100) multiplied by 0.5 to give an assumed sex ratio of 50:50,TRUE,01/01/2016
NA,PHX5831,fecundity,mean lifetime eggs individual-1,51.3,eggs individual-1,10.5,10.5,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Joao Pessoa Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.136389,-34.852592,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals (n=100) multiplied by 0.5 to give an assumed sex ratio of 50:50,TRUE,01/01/2016
NA,PHX5831,fecundity,mean lifetime eggs individual-1,30.57,eggs individual-1,14.1,14.1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Joao Pessoa Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.136389,-34.852592,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals (n=100) multiplied by 0.5 to give an assumed sex ratio of 50:50,TRUE,01/01/2016
PHXX532,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX533,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX534,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX535,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX536,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX537,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX538,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX539,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX540,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX541,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX542,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX543,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX544,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX545,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX546,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX547,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX548,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX549,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX550,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX551,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX552,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX553,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX554,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX555,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX556,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX557,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX558,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX559,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX560,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX561,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX562,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX563,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX564,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX565,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX566,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX567,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX568,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX569,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX570,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX571,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX572,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX573,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX574,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX575,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX576,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MAR001,survival,percentage of eggs hatched,7.25,percent,2.55,2.55,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,400,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,egg,NA,8,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2019
NA,MAR001,survival,percentage of eggs hatched,50.5,percent,4.9,4.9,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,400,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,egg,NA,13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2019
NA,MAR001,survival,percentage of eggs hatched,53.75,percent,4.88,4.88,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,400,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,egg,NA,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2019
NA,MAR001,survival,percentage of eggs hatched,51,percent,4.9,4.9,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,400,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,egg,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2019
NA,MAR001,survival,percentage of eggs hatched,57.25,percent,4.84,4.84,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,400,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,egg,NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2019
NA,MAR002,survival,percent surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,L1,NA,4,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2019
NA,MAR002,survival,percent surviving life stage,95,percent,3.9,3.9,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,L1,NA,13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2019
NA,MAR002,survival,percent surviving life stage,90.83,percent,5.16,5.16,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,L1,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2019
NA,MAR002,survival,percent surviving life stage,80,percent,7.16,7.16,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,L1,NA,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2019
NA,MAR002,survival,percent surviving life stage,80.83,percent,7.04,7.04,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,L1,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2019
NA,MAR002,survival,percent surviving life stage,81.67,percent,6.92,6.92,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,L1,NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2019
NA,MAR003,survival,percent surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,L2,NA,13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,NA,TRUE,01/01/2019
NA,MAR003,survival,percent surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,L2,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,NA,TRUE,01/01/2019
NA,MAR003,survival,percent surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,L2,NA,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,NA,TRUE,01/01/2019
NA,MAR003,survival,percent surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,L2,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,NA,TRUE,01/01/2019
NA,MAR003,survival,percent surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,L2,NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,NA,TRUE,01/01/2019
NA,MAR004,survival,percent surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,L3,NA,13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,NA,TRUE,01/01/2019
NA,MAR004,survival,percent surviving life stage,99.08,percent,0.92,1.79,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,L3,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,NA,TRUE,01/01/2019
NA,MAR004,survival,percent surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,L3,NA,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,NA,TRUE,01/01/2019
NA,MAR004,survival,percent surviving life stage,98.97,percent,1.03,2.01,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,L3,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,NA,TRUE,01/01/2019
NA,MAR004,survival,percent surviving life stage,95.92,percent,3.92,3.92,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,L3,NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,NA,TRUE,01/01/2019
NA,MAR005,survival,percent surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,L4,NA,13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,NA,TRUE,01/01/2019
NA,MAR005,survival,percent surviving life stage,98.15,percent,1.85,2.54,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,L4,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,NA,TRUE,01/01/2019
NA,MAR005,survival,percent surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,L4,NA,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,NA,TRUE,01/01/2019
NA,MAR005,survival,percent surviving life stage,97.92,percent,2.08,2.86,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,L4,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,NA,TRUE,01/01/2019
NA,MAR005,survival,percent surviving life stage,97.87,percent,2.13,2.91,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,L4,NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,NA,TRUE,01/01/2019
NA,MAR006,survival,percent surviving life stage,93.86,percent,4.56,4.56,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,pupal,NA,13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,NA,TRUE,01/01/2019
NA,MAR006,survival,percent surviving life stage,79.25,percent,8.68,8.68,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,pupal,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,NA,TRUE,01/01/2019
NA,MAR006,survival,percent surviving life stage,97.92,percent,2.08,2.89,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,pupal,NA,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,NA,TRUE,01/01/2019
NA,MAR006,survival,percent surviving life stage,86.17,percent,7.52,7.52,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,pupal,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,NA,TRUE,01/01/2019
NA,MAR006,survival,percent surviving life stage,47.83,percent,14.76,14.76,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,pupal,NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,NA,TRUE,01/01/2019
PHXX577,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX578,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX579,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX580,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX581,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX582,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX583,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX584,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX585,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX586,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX587,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX588,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX589,NA,development time,individual-level duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX590,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX591,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX592,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX593,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX594,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX595,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX596,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX597,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX598,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX599,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX600,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.733,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX601,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX602,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX603,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX604,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX605,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX606,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MAR013,longevity,mean duration of life stage,52.33,days,23.28,23.28,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,adult,female,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,NA,TRUE,01/01/2019
NA,MAR013,longevity,mean duration of life stage,46.77,days,16.22,16.22,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,adult,female,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,NA,TRUE,01/01/2019
NA,MAR013,longevity,mean duration of life stage,66.33,days,8.04,8.04,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,NA,TRUE,01/01/2019
NA,MAR013,longevity,mean duration of life stage,5.87,days,1.28,1.28,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,NA,TRUE,01/01/2019
NA,MAR014,gonotrophic cycle,mean duration of gonotrophic cycle,14.75,days,11.64,11.64,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,adult,female,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,NA,TRUE,01/01/2019
NA,MAR014,gonotrophic cycle,mean duration of gonotrophic cycle,9.21,days,2.08,2.08,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,adult,female,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,NA,TRUE,01/01/2019
NA,MAR014,gonotrophic cycle,mean duration of gonotrophic cycle,10.81,days,3.24,3.24,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,NA,TRUE,01/01/2019
NA,MAR014,gonotrophic cycle,mean duration of gonotrophic cycle,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,trait value set to zero because all females died before completing a gonotrophic cycle,TRUE,01/01/2019
NA,LC4,survival,proportion surviving life stage,0,proportion,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,10,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0.02,proportion,0.01,0.01,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0.23,proportion,0.04,0.04,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0.44,proportion,0.05,0.05,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0.38,proportion,0.05,0.05,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,10,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0.98,proportion,0.01,0.01,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0.97,proportion,0.02,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0.97,proportion,0.02,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0,proportion,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,10,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0.99,proportion,0.01,0.01,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0.99,proportion,0.01,0.01,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0.99,proportion,0.01,0.01,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0,proportion,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,10,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,1,proportion,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0.99,proportion,0.01,0.01,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0.98,proportion,0.01,0.01,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0,proportion,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,10,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0.98,proportion,0.01,0.01,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0.99,proportion,0.01,0.01,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0.9,proportion,0.03,0.03,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0,proportion,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,10,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0.77,proportion,0.04,0.04,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0.86,proportion,0.04,0.04,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0.84,proportion,0.04,0.04,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0,proportion,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,10,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,interactor1number is the number of individuals that survived the life stage from an initial number of n=100 at the start of the experiment,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0.73,proportion,0.04,0.04,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,73,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,interactor1number is the number of individuals that survived the life stage from an initial number of n=100 at the start of the experiment,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0.81,proportion,0.04,0.04,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,81,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,interactor1number is the number of individuals that survived the life stage from an initial number of n=100 at the start of the experiment,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0.71,proportion,0.05,0.05,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,71,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,interactor1number is the number of individuals that survived the life stage from an initial number of n=100 at the start of the experiment,TRUE,01/01/2020
PHXX607,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX608,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX609,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX610,NA,development time,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX611,NA,development time,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX612,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX613,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX614,NA,development time,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX615,NA,development time,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX616,NA,development time,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX617,NA,development time,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX618,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX619,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX620,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX621,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX622,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX623,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX624,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX625,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX626,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX627,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX628,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX629,NA,development time,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX630,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX631,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX632,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,LC4118,hatching time,mean duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,10,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4118,hatching time,mean duration of life stage,2,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4118,hatching time,mean duration of life stage,3.8,days,0.4,0.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4118,hatching time,mean duration of life stage,3.1,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4111,longevity,mean duration of life stage,5.7,days,0.4,0.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,10,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4111,longevity,mean duration of life stage,27.9,days,2,2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4111,longevity,minimum duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,10,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4111,longevity,minimum duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4111,longevity,minimum duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4111,longevity,minimum duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4111,longevity,maximum duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,10,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4111,longevity,maximum duration of life stage,45,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4111,longevity,maximum duration of life stage,92,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4111,longevity,maximum duration of life stage,86,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC41111,gonotrophic cycle,mean duration of gonotrophic cycle (1st),4.2,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC41111,gonotrophic cycle,mean duration of gonotrophic cycle (2nd),4,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC41111,gonotrophic cycle,mean duration of gonotrophic cycle (3rd),3,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC41111,gonotrophic cycle,mean duration of gonotrophic cycle (4th),4,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC41111,gonotrophic cycle,mean duration of gonotrophic cycle (5th),3,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC41111,gonotrophic cycle,mean duration of gonotrophic cycle (6th),3.6,days,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC41111,gonotrophic cycle,mean duration of gonotrophic cycle (7th),3.9,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC41111,gonotrophic cycle,mean duration of gonotrophic cycle (8th),4.2,days,0.4,0.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC41111,gonotrophic cycle,mean duration of gonotrophic cycle (9th),4.1,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC41111,gonotrophic cycle,mean duration of gonotrophic cycle (10th),4.2,days,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC41111,gonotrophic cycle,mean duration of gonotrophic cycle (11th),7.5,days,2.5,2.5,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC41111,gonotrophic cycle,mean duration of gonotrophic cycle,3.8,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC41111,gonotrophic cycle,mean duration of gonotrophic cycle (1st),3.1,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC41111,gonotrophic cycle,mean duration of gonotrophic cycle (2nd),3.3,days,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC41111,gonotrophic cycle,mean duration of gonotrophic cycle (3rd),4.3,days,0.9,0.9,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC41111,gonotrophic cycle,mean duration of gonotrophic cycle,3.3,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4117,fecundity,mean number of eggs per cycle (1st),31.7,eggs individual-1 cycle-1,2,2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4117,fecundity,mean number of eggs per cycle (2nd),40.1,eggs individual-1 cycle-1,2.3,2.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4117,fecundity,mean number of eggs per cycle (3rd),40.8,eggs individual-1 cycle-1,2.1,2.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4117,fecundity,mean number of eggs per cycle (4th),40.4,eggs individual-1 cycle-1,2.3,2.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4117,fecundity,mean number of eggs per cycle (5th),39.4,eggs individual-1 cycle-1,2.5,2.5,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4117,fecundity,mean number of eggs per cycle (6th),31.6,eggs individual-1 cycle-1,4.7,4.7,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4117,fecundity,mean number of eggs per cycle (7th),30,eggs individual-1 cycle-1,3.5,3.5,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4117,fecundity,mean number of eggs per cycle (8th),25.4,eggs individual-1 cycle-1,5,5,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4117,fecundity,mean number of eggs per cycle (9th),29.4,eggs individual-1 cycle-1,8.3,8.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4117,fecundity,mean number of eggs per cycle (10th),19,eggs individual-1 cycle-1,0.4,0.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4117,fecundity,mean number of eggs per cycle (11th),6,eggs individual-1 cycle-1,3,3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4117,fecundity,mean number of eggs per cycle,34.3,eggs individual-1 cycle-1,1.2,1.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4117,fecundity,mean number of eggs per cycle (1st),55.9,eggs individual-1 cycle-1,4,4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4117,fecundity,mean number of eggs per cycle (2nd),55,eggs individual-1 cycle-1,8.2,8.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4117,fecundity,mean number of eggs per cycle (3rd),60.7,eggs individual-1 cycle-1,13.2,13.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
PHXX633,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX634,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,LC4111,longevity,mean duration of life stage,64.5,days,3.8,3.8,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4111,longevity,mean duration of life stage,53.5,days,4.7,4.7,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0.04,proportion,0.02,0.02,se,NA,NA,terrestrial,Laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,10,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0.08,proportion,0.03,0.03,se,NA,NA,terrestrial,Laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0.49,proportion,0.04,0.04,se,NA,NA,terrestrial,Laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0.51,proportion,0.04,0.04,se,NA,NA,terrestrial,Laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0,proportion,NA,NA,se,NA,NA,terrestrial,Laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,10,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0.89,proportion,0.04,0.04,se,NA,NA,terrestrial,Laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0.93,proportion,0.03,0.03,se,NA,NA,terrestrial,Laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0.88,proportion,0.04,0.04,se,NA,NA,terrestrial,Laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0,proportion,NA,NA,se,NA,NA,terrestrial,Laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,10,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0.93,proportion,0.03,0.03,se,NA,NA,terrestrial,Laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0.95,proportion,0.03,0.03,se,NA,NA,terrestrial,Laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0.99,proportion,0.01,0.01,se,NA,NA,terrestrial,Laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0,proportion,NA,NA,se,NA,NA,terrestrial,Laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,10,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0.86,proportion,0.04,0.04,se,NA,NA,terrestrial,Laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0.96,proportion,0.02,0.02,se,NA,NA,terrestrial,Laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0.96,proportion,0.02,0.02,se,NA,NA,terrestrial,Laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0,proportion,NA,NA,se,NA,NA,terrestrial,Laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,10,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0.84,proportion,0.05,0.05,se,NA,NA,terrestrial,Laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0.97,proportion,0.02,0.02,se,NA,NA,terrestrial,Laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0.91,proportion,0.04,0.04,se,NA,NA,terrestrial,Laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0,proportion,NA,NA,se,NA,NA,terrestrial,Laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,10,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0.83,proportion,0.05,0.05,se,NA,NA,terrestrial,Laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0.94,proportion,0.03,0.03,se,NA,NA,terrestrial,Laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0.9,proportion,0.04,0.04,se,NA,NA,terrestrial,Laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0,proportion,NA,NA,se,NA,NA,terrestrial,Laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,10,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0.5,proportion,0.06,0.06,se,NA,NA,terrestrial,Laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0.76,proportion,0.05,0.05,se,NA,NA,terrestrial,Laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,76,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC4,survival,proportion surviving life stage,0.68,proportion,0.05,0.05,se,NA,NA,terrestrial,Laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,68,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
PHXX635,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX636,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX637,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX638,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX639,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX640,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX641,NA,development time,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX642,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX643,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX644,NA,development time,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX645,NA,development time,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX646,NA,development time,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX647,NA,development time,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX648,NA,development time,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX649,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX650,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX651,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX652,NA,development time,individual-level duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX653,NA,development time,individual-level duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX654,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX655,NA,development time,individual-level duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,LC4118,hatching time,mean duration of life stage,2,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,10,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Paul Huxley,phuxly@gmail.com,Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC4118,hatching time,mean duration of life stage,7.4,days,1.8,1.8,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Paul Huxley,phuxly@gmail.com,Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC4118,hatching time,mean duration of life stage,4.5,days,0.7,0.7,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Paul Huxley,phuxly@gmail.com,Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC4118,hatching time,mean duration of life stage,6.7,days,0.7,0.7,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Paul Huxley,phuxly@gmail.com,Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
PHXX656,NA,development time,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX657,NA,development time,individual-level duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,LC4117,fecundity,mean number of eggs per cycle,56,eggs individual-1 cycle-1,3.7,3.7,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,MBA001,midgut infection rate,percentage of midguts with CHIKV 7 days post infection,17.9,percent,0.6,0.6,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Lamu county Kenya,field (F1),NA,0,decimal,-2.281157185,40.90416298,Aedes aegypti,NA,NA,NA,156,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1 and figure 1a,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,28 individuals from 156 individuals had midgut infections after 7 days,TRUE,01/01/2016
NA,MBA001,midgut infection rate,percentage of midguts with CHIKV 10 days post infection,23.1,percent,0.9,1,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Lamu county Kenya,field (F1),NA,0,decimal,-2.281157185,40.90416298,Aedes aegypti,NA,NA,NA,156,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1 and figure 1a,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,36 individuals from 156 individuals had midgut infections after 10 days,TRUE,01/01/2016
NA,MBA001,midgut infection rate,percentage of midguts with CHIKV 13 days post infection,26.9,percent,1.3,1.3,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Lamu county Kenya,field (F1),NA,0,decimal,-2.281157185,40.90416298,Aedes aegypti,NA,NA,NA,156,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1 and figure 1a,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,42 individuals from 156 individuals had midgut infections after 42 days,TRUE,01/01/2016
NA,MBA001,midgut infection rate,percentage of midguts with CHIKV 7 days post infection,17.3,percent,0.5,0.6,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Lamu county Kenya,field (F1),NA,0,decimal,-2.281157185,40.90416298,Aedes aegypti,NA,NA,NA,173,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1 and figure 1a,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,30 individuals from 173 individuals had midgut infections after 7 days,TRUE,01/01/2016
NA,MBA001,midgut infection rate,percentage of midguts with CHIKV 10 days post infection,26,percent,0.9,1.1,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Lamu county Kenya,field (F1),NA,0,decimal,-2.281157185,40.90416298,Aedes aegypti,NA,NA,NA,173,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1 and figure 1a,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,45 individuals from 173 individuals had midgut infections after 7 days,TRUE,01/01/2016
NA,MBA001,midgut infection rate,percentage of midguts with CHIKV 13 days post infection,16.2,percent,0.9,1,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Lamu county Kenya,field (F1),NA,0,decimal,-2.281157185,40.90416298,Aedes aegypti,NA,NA,NA,173,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1 and figure 1a,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,28 individuals from 173 individuals had midgut infections after 7 days,TRUE,01/01/2016
NA,MBA001,midgut infection rate,percentage of midguts with CHIKV 7 days post infection,5.5,percent,0.6,0.6,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trans Nzoia County Kenya,field (F1),NA,0,decimal,0.854285641,34.72702,Aedes aegypti,NA,NA,NA,146,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1 and figure 1a,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,8 individuals from 146 individuals had midgut infections after 7 days,TRUE,01/01/2016
NA,MBA001,midgut infection rate,percentage of midguts with CHIKV 10 days post infection,4.1,percent,0.6,0.6,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trans Nzoia County Kenya,field (F1),NA,0,decimal,0.854285641,34.72702,Aedes aegypti,NA,NA,NA,146,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1 and figure 1a,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,6 individuals from 146 individuals had midgut infections after 10 days,TRUE,01/01/2016
NA,MBA001,midgut infection rate,percentage of midguts with CHIKV 13 days post infection,13.7,percent,0.8,0.9,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trans Nzoia County Kenya,field (F1),NA,0,decimal,0.854285641,34.72702,Aedes aegypti,NA,NA,NA,146,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1 and figure 1a,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,20 individuals from 146 individuals had midgut infections after 42 days,TRUE,01/01/2016
NA,MBA001,midgut infection rate,percentage of midguts with CHIKV 7 days post infection,22.4,percent,0.6,0.7,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trans Nzoia County Kenya,field (F1),NA,0,decimal,0.854285641,34.72702,Aedes aegypti,NA,NA,NA,156,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1 and figure 1a,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,35 individuals from 156 individuals had midgut infections after 7 days,TRUE,01/01/2016
NA,MBA001,midgut infection rate,percentage of midguts with CHIKV 10 days post infection,16.7,percent,0.9,1,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trans Nzoia County Kenya,field (F1),NA,0,decimal,0.854285641,34.72702,Aedes aegypti,NA,NA,NA,156,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1 and figure 1a,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,26 individuals from 156 individuals had midgut infections after 7 days,TRUE,01/01/2016
NA,MBA001,midgut infection rate,percentage of midguts with CHIKV 13 days post infection,16.7,percent,0.9,1.1,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trans Nzoia County Kenya,field (F1),NA,0,decimal,0.854285641,34.72702,Aedes aegypti,NA,NA,NA,156,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1 and figure 1a,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,26 individuals from 156 individuals had midgut infections after 7 days,TRUE,01/01/2016
NA,MBA002,dissemination rate,percentage of legs with CHIKV 7 days post infection,17.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Lamu county Kenya,field (F1),NA,0,decimal,-2.281157185,40.90416298,Aedes aegypti,NA,NA,NA,106,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,originaltraitvalue is the number of infections (n=19) divived by the number of midgut infections (n=106) multiplied by 100,TRUE,01/01/2016
NA,MBA002,dissemination rate,percentage of legs with CHIKV 10 days post infection,25.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Lamu county Kenya,field (F1),NA,0,decimal,-2.281157185,40.90416298,Aedes aegypti,NA,NA,NA,106,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,originaltraitvalue is the number of infections (n=27) divived by the number of midgut infections (n=106) multiplied by 100,TRUE,01/01/2016
NA,MBA002,dissemination rate,percentage of legs with CHIKV 13 days post infection,17,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Lamu county Kenya,field (F1),NA,0,decimal,-2.281157185,40.90416298,Aedes aegypti,NA,NA,NA,106,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,originaltraitvalue is the number of infections (n=18) divived by the number of midgut infections (n=106) multiplied by 100,TRUE,01/01/2016
NA,MBA002,dissemination rate,percentage of legs with CHIKV 7 days post infection,6.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Lamu county Kenya,field (F1),NA,0,decimal,-2.281157185,40.90416298,Aedes aegypti,NA,NA,NA,103,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,originaltraitvalue is the number of infections (n=7) divived by the number of midgut infections (n=103) multiplied by 100,TRUE,01/01/2016
NA,MBA002,dissemination rate,percentage of legs with CHIKV 10 days post infection,20.4,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Lamu county Kenya,field (F1),NA,0,decimal,-2.281157185,40.90416298,Aedes aegypti,NA,NA,NA,103,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,originaltraitvalue is the number of infections (n=10) divived by the number of midgut infections (n=103) multiplied by 100,TRUE,01/01/2016
NA,MBA002,dissemination rate,percentage of legs with CHIKV 13 days post infection,29.1,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Lamu county Kenya,field (F1),NA,0,decimal,-2.281157185,40.90416298,Aedes aegypti,NA,NA,NA,103,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,originaltraitvalue is the number of infections (n=13) divived by the number of midgut infections (n=103) multiplied by 100,TRUE,01/01/2016
NA,MBA002,dissemination rate,percentage of legs with CHIKV 7 days post infection,26.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trans Nzoia County Kenya,field (F1),NA,0,decimal,0.854285641,34.72702,Aedes aegypti,NA,NA,NA,34,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,originaltraitvalue is the number of infections (n=9) divived by the number of midgut infections (n=34) multiplied by 100,TRUE,01/01/2016
NA,MBA002,dissemination rate,percentage of legs with CHIKV 10 days post infection,11.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trans Nzoia County Kenya,field (F1),NA,0,decimal,0.854285641,34.72702,Aedes aegypti,NA,NA,NA,34,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,originaltraitvalue is the number of infections (n=4) divived by the number of midgut infections (n=34) multiplied by 100,TRUE,01/01/2016
NA,MBA002,dissemination rate,percentage of legs with CHIKV 13 days post infection,20.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trans Nzoia County Kenya,field (F1),NA,0,decimal,0.854285641,34.72702,Aedes aegypti,NA,NA,NA,34,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,originaltraitvalue is the number of infections (n=7) divived by the number of midgut infections (n=34) multiplied by 100,TRUE,01/01/2016
NA,MBA002,dissemination rate,percentage of legs with CHIKV 7 days post infection,28.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trans Nzoia County Kenya,field (F1),NA,0,decimal,0.854285641,34.72702,Aedes aegypti,NA,NA,NA,87,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,originaltraitvalue is the number of infections (n=25) divived by the number of midgut infections (n=87) multiplied by 100,TRUE,01/01/2016
NA,MBA002,dissemination rate,percentage of legs with CHIKV 10 days post infection,17.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trans Nzoia County Kenya,field (F1),NA,0,decimal,0.854285641,34.72702,Aedes aegypti,NA,NA,NA,87,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,originaltraitvalue is the number of infections (n=15) divived by the number of midgut infections (n=87) multiplied by 100,TRUE,01/01/2016
NA,MBA002,dissemination rate,percentage of legs with CHIKV 13 days post infection,26.4,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trans Nzoia County Kenya,field (F1),NA,0,decimal,0.854285641,34.72702,Aedes aegypti,NA,NA,NA,87,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,originaltraitvalue is the number of infections (n=23) divived by the number of midgut infections (n=87) multiplied by 100,TRUE,01/01/2016
NA,MBA003,dissemination rate,percentage of heads with CHIKV 7 days post infection,10.4,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Lamu county Kenya,field (F1),NA,0,decimal,-2.281157185,40.90416298,Aedes aegypti,NA,NA,NA,106,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,originaltraitvalue is the number of infections (n=11) divived by the number of midgut infections (n=106) multiplied by 100,TRUE,01/01/2016
NA,MBA003,dissemination rate,percentage of heads with CHIKV 10 days post infection,2.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Lamu county Kenya,field (F1),NA,0,decimal,-2.281157185,40.90416298,Aedes aegypti,NA,NA,NA,106,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,originaltraitvalue is the number of infections (n=3) divived by the number of midgut infections (n=106) multiplied by 100,TRUE,01/01/2016
NA,MBA003,dissemination rate,percentage of heads with CHIKV 13 days post infection,2.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Lamu county Kenya,field (F1),NA,0,decimal,-2.281157185,40.90416298,Aedes aegypti,NA,NA,NA,106,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,originaltraitvalue is the number of infections (n=3) divived by the number of midgut infections (n=106) multiplied by 100,TRUE,01/01/2016
NA,MBA003,dissemination rate,percentage of heads with CHIKV 7 days post infection,2.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Lamu county Kenya,field (F1),NA,0,decimal,-2.281157185,40.90416298,Aedes aegypti,NA,NA,NA,103,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,originaltraitvalue is the number of infections (n=3) divived by the number of midgut infections (n=103) multiplied by 100,TRUE,01/01/2016
NA,MBA003,dissemination rate,percentage of heads with CHIKV 10 days post infection,16.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Lamu county Kenya,field (F1),NA,0,decimal,-2.281157185,40.90416298,Aedes aegypti,NA,NA,NA,103,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,originaltraitvalue is the number of infections (n=17) divived by the number of midgut infections (n=103) multiplied by 100,TRUE,01/01/2016
NA,MBA003,dissemination rate,percentage of heads with CHIKV 13 days post infection,26.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Lamu county Kenya,field (F1),NA,0,decimal,-2.281157185,40.90416298,Aedes aegypti,NA,NA,NA,103,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,originaltraitvalue is the number of infections (n=27) divived by the number of midgut infections (n=103) multiplied by 100,TRUE,01/01/2016
NA,MBA003,dissemination rate,percentage of heads with CHIKV 7 days post infection,26.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trans Nzoia County Kenya,field (F1),NA,0,decimal,0.854285641,34.72702,Aedes aegypti,NA,NA,NA,34,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,originaltraitvalue is the number of infections (n=9) divived by the number of midgut infections (n=34) multiplied by 100,TRUE,01/01/2016
NA,MBA003,dissemination rate,percentage of heads with CHIKV 10 days post infection,17.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trans Nzoia County Kenya,field (F1),NA,0,decimal,0.854285641,34.72702,Aedes aegypti,NA,NA,NA,34,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,originaltraitvalue is the number of infections (n=6) divived by the number of midgut infections (n=34) multiplied by 100,TRUE,01/01/2016
NA,MBA003,dissemination rate,percentage of heads with CHIKV 13 days post infection,20.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trans Nzoia County Kenya,field (F1),NA,0,decimal,0.854285641,34.72702,Aedes aegypti,NA,NA,NA,34,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,originaltraitvalue is the number of infections (n=7) divived by the number of midgut infections (n=34) multiplied by 100,TRUE,01/01/2016
NA,MBA003,dissemination rate,percentage of heads with CHIKV 7 days post infection,25.3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trans Nzoia County Kenya,field (F1),NA,0,decimal,0.854285641,34.72702,Aedes aegypti,NA,NA,NA,87,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,originaltraitvalue is the number of infections (n=22) divived by the number of midgut infections (n=87) multiplied by 100,TRUE,01/01/2016
NA,MBA003,dissemination rate,percentage of heads with CHIKV 10 days post infection,8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trans Nzoia County Kenya,field (F1),NA,0,decimal,0.854285641,34.72702,Aedes aegypti,NA,NA,NA,87,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,originaltraitvalue is the number of infections (n=7) divived by the number of midgut infections (n=87) multiplied by 100,TRUE,01/01/2016
NA,MBA003,dissemination rate,percentage of heads with CHIKV 13 days post infection,23,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trans Nzoia County Kenya,field (F1),NA,0,decimal,0.854285641,34.72702,Aedes aegypti,NA,NA,NA,87,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,originaltraitvalue is the number of infections (n=20) divived by the number of midgut infections (n=87) multiplied by 100,TRUE,01/01/2016
NA,MBA001,midgut infection rate,proportion of midguts with CHIKV 7 days post infection,17.9,percent,0.6,0.6,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Lamu county Kenya,field (F1),NA,0,decimal,-2.281157185,40.90416298,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1 and figure 1a,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2016
NA,MBA001,midgut infection rate,proportion of midguts with CHIKV 10 days post infection,23.1,percent,0.9,1,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Lamu county Kenya,field (F1),NA,0,decimal,-2.281157185,40.90416298,Aedes aegypti,NA,NA,NA,36,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1 and figure 1a,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2016
NA,MBA001,midgut infection rate,proportion of midguts with CHIKV 13 days post infection,26.9,percent,1.3,1.3,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Lamu county Kenya,field (F1),NA,0,decimal,-2.281157185,40.90416298,Aedes aegypti,NA,NA,NA,42,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1 and figure 1a,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2016
NA,MBA001,midgut infection rate,proportion of midguts with CHIKV 7 days post infection,17.3,percent,0.5,0.6,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Lamu county Kenya,field (F1),NA,0,decimal,-2.281157185,40.90416298,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1 and figure 1a,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2016
NA,MBA001,midgut infection rate,proportion of midguts with CHIKV 10 days post infection,26,percent,0.9,1.1,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Lamu county Kenya,field (F1),NA,0,decimal,-2.281157185,40.90416298,Aedes aegypti,NA,NA,NA,45,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1 and figure 1a,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2016
NA,MBA001,midgut infection rate,proportion of midguts with CHIKV 13 days post infection,16.2,percent,0.9,1,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Lamu county Kenya,field (F1),NA,0,decimal,-2.281157185,40.90416298,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1 and figure 1a,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2016
NA,MBA001,midgut infection rate,proportion of midguts with CHIKV 7 days post infection,5.5,percent,0.6,0.6,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trans Nzoia County Kenya,field (F1),NA,0,decimal,0.854285641,34.72702,Aedes aegypti,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1 and figure 1a,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2016
NA,MBA001,midgut infection rate,proportion of midguts with CHIKV 10 days post infection,4.1,percent,0.6,0.6,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trans Nzoia County Kenya,field (F1),NA,0,decimal,0.854285641,34.72702,Aedes aegypti,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1 and figure 1a,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2016
NA,MBA001,midgut infection rate,proportion of midguts with CHIKV 13 days post infection,13.7,percent,0.8,0.9,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trans Nzoia County Kenya,field (F1),NA,0,decimal,0.854285641,34.72702,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1 and figure 1a,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2016
NA,MBA001,midgut infection rate,proportion of midguts with CHIKV 7 days post infection,22.4,percent,0.6,0.7,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trans Nzoia County Kenya,field (F1),NA,0,decimal,0.854285641,34.72702,Aedes aegypti,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1 and figure 1a,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2016
NA,MBA001,midgut infection rate,proportion of midguts with CHIKV 10 days post infection,16.7,percent,0.9,1,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trans Nzoia County Kenya,field (F1),NA,0,decimal,0.854285641,34.72702,Aedes aegypti,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1 and figure 1a,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2016
NA,MBA001,midgut infection rate,proportion of midguts with CHIKV 13 days post infection,16.7,percent,0.9,1.1,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trans Nzoia County Kenya,field (F1),NA,0,decimal,0.854285641,34.72702,Aedes aegypti,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1 and figure 1a,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2016
NA,MBA002,dissemination rate,proportion of legs with CHIKV 7 days post infection,17.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Lamu county Kenya,field (F1),NA,0,decimal,-2.281157185,40.90416298,Aedes aegypti,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2016
NA,MBA002,dissemination rate,proportion of legs with CHIKV 10 days post infection,25.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Lamu county Kenya,field (F1),NA,0,decimal,-2.281157185,40.90416298,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2016
NA,MBA002,dissemination rate,proportion of legs with CHIKV 13 days post infection,17,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Lamu county Kenya,field (F1),NA,0,decimal,-2.281157185,40.90416298,Aedes aegypti,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2016
NA,MBA002,dissemination rate,proportion of legs with CHIKV 7 days post infection,6.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Lamu county Kenya,field (F1),NA,0,decimal,-2.281157185,40.90416298,Aedes aegypti,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2016
NA,MBA002,dissemination rate,proportion of legs with CHIKV 10 days post infection,20.4,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Lamu county Kenya,field (F1),NA,0,decimal,-2.281157185,40.90416298,Aedes aegypti,NA,NA,NA,21,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2016
NA,MBA002,dissemination rate,proportion of legs with CHIKV 13 days post infection,29.1,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Lamu county Kenya,field (F1),NA,0,decimal,-2.281157185,40.90416298,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2016
NA,MBA002,dissemination rate,proportion of legs with CHIKV 7 days post infection,26.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trans Nzoia County Kenya,field (F1),NA,0,decimal,0.854285641,34.72702,Aedes aegypti,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2016
NA,MBA002,dissemination rate,proportion of legs with CHIKV 10 days post infection,11.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trans Nzoia County Kenya,field (F1),NA,0,decimal,0.854285641,34.72702,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2016
NA,MBA002,dissemination rate,proportion of legs with CHIKV 13 days post infection,20.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trans Nzoia County Kenya,field (F1),NA,0,decimal,0.854285641,34.72702,Aedes aegypti,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2016
NA,MBA002,dissemination rate,proportion of legs with CHIKV 7 days post infection,28.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trans Nzoia County Kenya,field (F1),NA,0,decimal,0.854285641,34.72702,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2016
NA,MBA002,dissemination rate,proportion of legs with CHIKV 10 days post infection,17.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trans Nzoia County Kenya,field (F1),NA,0,decimal,0.854285641,34.72702,Aedes aegypti,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2016
NA,MBA002,dissemination rate,proportion of legs with CHIKV 13 days post infection,26.4,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trans Nzoia County Kenya,field (F1),NA,0,decimal,0.854285641,34.72702,Aedes aegypti,NA,NA,NA,23,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2016
NA,MBA003,dissemination rate,proportion of heads with CHIKV 7 days post infection,10.4,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Lamu county Kenya,field (F1),NA,0,decimal,-2.281157185,40.90416298,Aedes aegypti,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2016
NA,MBA003,dissemination rate,proportion of heads with CHIKV 10 days post infection,2.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Lamu county Kenya,field (F1),NA,0,decimal,-2.281157185,40.90416298,Aedes aegypti,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2016
NA,MBA003,dissemination rate,proportion of heads with CHIKV 13 days post infection,2.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Lamu county Kenya,field (F1),NA,0,decimal,-2.281157185,40.90416298,Aedes aegypti,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2016
NA,MBA003,dissemination rate,proportion of heads with CHIKV 7 days post infection,2.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Lamu county Kenya,field (F1),NA,0,decimal,-2.281157185,40.90416298,Aedes aegypti,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2016
NA,MBA003,dissemination rate,proportion of heads with CHIKV 10 days post infection,16.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Lamu county Kenya,field (F1),NA,0,decimal,-2.281157185,40.90416298,Aedes aegypti,NA,NA,NA,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2016
NA,MBA003,dissemination rate,proportion of heads with CHIKV 13 days post infection,26.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Lamu county Kenya,field (F1),NA,0,decimal,-2.281157185,40.90416298,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2016
NA,MBA003,dissemination rate,proportion of heads with CHIKV 7 days post infection,26.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trans Nzoia County Kenya,field (F1),NA,0,decimal,0.854285641,34.72702,Aedes aegypti,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2016
NA,MBA003,dissemination rate,proportion of heads with CHIKV 10 days post infection,17.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trans Nzoia County Kenya,field (F1),NA,0,decimal,0.854285641,34.72702,Aedes aegypti,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2016
NA,MBA003,dissemination rate,proportion of heads with CHIKV 13 days post infection,20.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trans Nzoia County Kenya,field (F1),NA,0,decimal,0.854285641,34.72702,Aedes aegypti,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2016
NA,MBA003,dissemination rate,proportion of heads with CHIKV 7 days post infection,25.3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trans Nzoia County Kenya,field (F1),NA,0,decimal,0.854285641,34.72702,Aedes aegypti,NA,NA,NA,22,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2016
NA,MBA003,dissemination rate,proportion of heads with CHIKV 10 days post infection,8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trans Nzoia County Kenya,field (F1),NA,0,decimal,0.854285641,34.72702,Aedes aegypti,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2016
NA,MBA003,dissemination rate,proportion of heads with CHIKV 13 days post infection,23,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trans Nzoia County Kenya,field (F1),NA,0,decimal,0.854285641,34.72702,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mbaika et al. 2016. Vector competence of Aedes aegypti in transmitting Chikungunya virus: effects and implications of extrinsic incubation temperature on dissemination and infection rates. Virology Journal 13: 114,10.1186/s12985-016-0566-7,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2016
NA,MER001,dissemination efficiency,proportion of mosquitoes with CHIKV infected head 3 days post infection,0,percent,24.7,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with CHIKV infected head 7 days post infection,45,percent,23.5,22,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with CHIKV infected head 10 days post infection,45,percent,23.5,22,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with CHIKV infected head 14 days post infection,55,percent,21.9,23.5,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with CHIKV infected head 21 days post infection,55,percent,21.9,23.5,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with DENV infected head 3 days post infection,0,percent,26.5,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1temp varied around a 20 degree average,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with DENV infected head 7 days post infection,0,percent,16.8,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1temp varied around a 20 degree average,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with DENV infected head 10 days post infection,0,percent,16.1,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,21,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1temp varied around a 20 degree average,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with DENV infected head 14 days post infection,5,percent,19.9,4.9,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1temp varied around a 20 degree average,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with DENV infected head 21 days post infection,5,percent,19.9,4.9,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1temp varied around a 20 degree average,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with CHIKV infected head 3 days post infection,38.88,percent,25.42,21.58,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with CHIKV infected head 7 days post infection,83.33,percent,13.07,24.73,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with CHIKV infected head 10 days post infection,62.5,percent,22.3,27.1,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with CHIKV infected head 14 days post infection,82.35,percent,13.85,25.75,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with CHIKV infected head 21 days post infection,73.33,percent,18.87,28.43,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with DENV infected head 3 days post infection,0,percent,18.5,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with DENV infected head 7 days post infection,6.25,percent,23.95,6.05,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with DENV infected head 10 days post infection,45,percent,23.5,21.9,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with DENV infected head 14 days post infection,80,percent,14.3,23.7,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with DENV infected head 21 days post infection,85,percent,11.8,22.9,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with CHIKV infected head 3 days post infection,6.66,percent,25.24,6.46,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with CHIKV infected head 7 days post infection,35,percent,24.2,19.6,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with CHIKV infected head 10 days post infection,57.87,percent,21.83,24.37,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with CHIKV infected head 14 days post infection,45,percent,23.5,21.9,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with CHIKV infected head 21 days post infection,90,percent,8.8,21.7,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with DENV infected head 3 days post infection,0,percent,19.5,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1temp varied around a 20 degree average,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with DENV infected head 7 days post infection,0,percent,17.6,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1temp varied around a 20 degree average,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with DENV infected head 10 days post infection,0,percent,16.8,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1temp varied around a 20 degree average,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with DENV infected head 14 days post infection,0,percent,18.5,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1temp varied around a 20 degree average,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with DENV infected head 21 days post infection,0,percent,16.8,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1temp varied around a 20 degree average,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with CHIKV infected head 3 days post infection,19.04,percent,22.86,13.64,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,21,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with CHIKV infected head 7 days post infection,55.55,percent,22.95,24.75,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with CHIKV infected head 10 days post infection,52.63,percent,22.97,23.73,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with CHIKV infected head 14 days post infection,61.9,percent,20,23.5,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,21,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with CHIKV infected head 21 days post infection,90,percent,8.8,21.7,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with DENV infected head 3 days post infection,0,percent,17.6,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with DENV infected head 7 days post infection,5.26,percent,20.74,5.16,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with DENV infected head 10 days post infection,15.78,percent,23.82,12.38,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with DENV infected head 14 days post infection,33.33,percent,23.67,18.73,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,21,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with DENV infected head 21 days post infection,80,percent,14.3,23.7,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with CHIKV infected head 3 days post infection,0,percent,21.8,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with CHIKV infected head 7 days post infection,50,percent,22.8,22.8,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with CHIKV infected head 10 days post infection,65,percent,19.6,24.2,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with CHIKV infected head 14 days post infection,80,percent,14.3,23.7,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with CHIKV infected head 21 days post infection,95,percent,4.9,19.9,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with DENV infected head 3 days post infection,0,percent,16.1,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,21,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with DENV infected head 7 days post infection,0,percent,16.8,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with DENV infected head 10 days post infection,0,percent,16.8,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with DENV infected head 14 days post infection,0,percent,16.8,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with DENV infected head 21 days post infection,0,percent,19.9,4.9,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with CHIKV infected head 3 days post infection,57.89,percent,21.81,24.39,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with CHIKV infected head 7 days post infection,88.88,percent,9.72,23.58,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with CHIKV infected head 10 days post infection,94.73,percent,5.17,20.73,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with CHIKV infected head 14 days post infection,85,percent,11.8,22.9,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with CHIKV infected head 21 days post infection,95,percent,4.9,19.9,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with DENV infected head 3 days post infection,0,percent,17.6,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with DENV infected head 7 days post infection,15,percent,22.9,11.8,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with DENV infected head 10 days post infection,23.8,percent,23.4,15.6,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with DENV infected head 14 days post infection,68.42,percent,18.98,25.02,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with DENV infected head 21 days post infection,94.73,percent,5.17,19.63,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with CHIKV infected head 3 days post infection,18.18,percent,33.62,15.88,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with CHIKV infected head 7 days post infection,80,percent,14.3,23.7,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with CHIKV infected head 10 days post infection,93.33,percent,6.47,25.23,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with CHIKV infected head 14 days post infection,85,percent,11.8,22.9,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with CHIKV infected head 21 days post infection,95,percent,4.9,19.9,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with DENV infected head 3 days post infection,0,percent,52.2,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with DENV infected head 7 days post infection,0,percent,30.8,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with DENV infected head 10 days post infection,0,percent,36.9,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with DENV infected head 14 days post infection,0,percent,30.8,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with DENV infected head 21 days post infection,6.25,percent,23.95,6.05,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with CHIKV infected head 3 days post infection,63.63,percent,25.47,32.83,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with CHIKV infected head 7 days post infection,84.61,percent,13.49,30.01,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with CHIKV infected head 10 days post infection,91.66,percent,8.14,30.16,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with CHIKV infected head 14 days post infection,80,percent,15.7,28.1,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with CHIKV infected head 21 days post infection,95,percent,4.9,19.9,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with DENV infected head 3 days post infection,0,percent,30.8,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with DENV infected head 7 days post infection,30.76,percent,30.64,21.66,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with DENV infected head 10 days post infection,60,percent,23.7,27.7,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with DENV infected head 14 days post infection,53.84,percent,26.96,28.74,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER001,dissemination efficiency,proportion of mosquitoes with DENV infected head 21 days post infection,65,percent,19.6,24.2,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with CHIKV infectious saliva 3 days post infection,0,percent,24.7,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with CHIKV infectious saliva 7 days post infection,10,percent,21.7,8.8,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with CHIKV infectious saliva 10 days post infection,40,percent,23.9,20.9,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with CHIKV infectious saliva 14 days post infection,40,percent,23.9,20.9,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with CHIKV infectious saliva 21 days post infection,45,percent,23.5,21.9,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with DENV infectious saliva 3 days post infection,0,percent,26.5,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with DENV infectious saliva 7 days post infection,0,percent,16.8,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with DENV infectious saliva 10 days post infection,0,percent,16.1,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,21,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with DENV infectious saliva 14 days post infection,0,percent,16.8,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with DENV infectious saliva 21 days post infection,0,percent,16.8,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with CHIKV infectious saliva 3 days post infection,16.66,percent,24.74,13.06,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with CHIKV infectious saliva 7 days post infection,66.66,percent,20.04,25.66,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with CHIKV infectious saliva 10 days post infection,31.25,percent,27.45,20.25,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with CHIKV infectious saliva 14 days post infection,47.05,percent,25.15,24.05,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with CHIKV infectious saliva 21 days post infection,26.66,percent,28.44,18.86,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with DENV infectious saliva 3 days post infection,0,percent,18.5,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with DENV infectious saliva 7 days post infection,0,percent,20.6,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with DENV infectious saliva 10 days post infection,0,percent,16.8,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with DENV infectious saliva 14 days post infection,10,percent,21.7,8.8,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with DENV infectious saliva 21 days post infection,33.33,percent,15.77,24.63,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with CHIKV infectious saliva 3 days post infection,6.66,percent,25.24,6.46,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with CHIKV infectious saliva 7 days post infection,15,percent,22.9,11.8,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with CHIKV infectious saliva 10 days post infection,47.36,percent,23.74,22.96,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with CHIKV infectious saliva 14 days post infection,30,percent,24.3,18.1,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with CHIKV infectious saliva 21 days post infection,60,percent,20.9,23.9,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with DENV infectious saliva 3 days post infection,0,percent,19.5,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with DENV infectious saliva 7 days post infection,0,percent,17.6,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with DENV infectious saliva 10 days post infection,0,percent,16.8,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with DENV infectious saliva 14 days post infection,0,percent,18.5,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with DENV infectious saliva 21 days post infection,0,percent,16.8,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with CHIKV infectious saliva 3 days post infection,4.76,percent,19.04,4.66,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,21,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with CHIKV infectious saliva 7 days post infection,38.88,percent,25.42,21.58,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with CHIKV infectious saliva 10 days post infection,26.31,percent,24.89,17.21,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with CHIKV infectious saliva 14 days post infection,19.04,percent,22.86,13.64,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,21,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with CHIKV infectious saliva 21 days post infection,25,percent,24.1,16.3,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with DENV infectious saliva 3 days post infection,0,percent,17.6,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with DENV infectious saliva 7 days post infection,0,percent,17.6,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with DENV infectious saliva 10 days post infection,5.26,percent,20.74,5.16,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with DENV infectious saliva 14 days post infection,4.76,percent,19.04,4.66,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,21,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with DENV infectious saliva 21 days post infection,15,percent,22.9,11.8,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with CHIKV infectious saliva 3 days post infection,0,percent,21.8,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with CHIKV infectious saliva 7 days post infection,10,percent,21.7,8.8,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with CHIKV infectious saliva 10 days post infection,50,percent,22.8,22.8,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with CHIKV infectious saliva 14 days post infection,45,percent,23.5,21.9,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with CHIKV infectious saliva 21 days post infection,40,percent,23.9,20.9,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with DENV infectious saliva 3 days post infection,0,percent,16.1,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,21,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with DENV infectious saliva 7 days post infection,0,percent,16.8,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with DENV infectious saliva 10 days post infection,0,percent,16.8,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with DENV infectious saliva 14 days post infection,0,percent,16.8,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with DENV infectious saliva 21 days post infection,0,percent,16.8,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with CHIKV infectious saliva 3 days post infection,10.52,percent,22.58,9.22,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with CHIKV infectious saliva 7 days post infection,72.22,percent,18.08,25.72,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with CHIKV infectious saliva 10 days post infection,47.36,percent,23.74,22.96,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with CHIKV infectious saliva 14 days post infection,40,percent,23.9,20.9,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with CHIKV infectious saliva 21 days post infection,15,percent,22.9,11.8,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with DENV infectious saliva 3 days post infection,0,percent,17.6,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with DENV infectious saliva 7 days post infection,5,percent,19.9,4.9,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with DENV infectious saliva 10 days post infection,0,percent,16.1,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with DENV infectious saliva 14 days post infection,0,percent,17.6,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with DENV infectious saliva 21 days post infection,42.1,percent,26.4,19,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with CHIKV infectious saliva 3 days post infection,0,percent,28.5,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with CHIKV infectious saliva 7 days post infection,35,percent,24.2,19.6,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with CHIKV infectious saliva 10 days post infection,86.67,percent,11.63,27.17,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with CHIKV infectious saliva 14 days post infection,65,percent,19.6,24.2,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with CHIKV infectious saliva 21 days post infection,55,percent,21.9,23.5,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with DENV infectious saliva 3 days post infection,0,percent,52.2,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with DENV infectious saliva 7 days post infection,0,percent,30.8,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with DENV infectious saliva 10 days post infection,0,percent,36.9,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with DENV infectious saliva 14 days post infection,0,percent,30.8,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with DENV infectious saliva 21 days post infection,0,percent,20.6,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with CHIKV infectious saliva 3 days post infection,9.09,percent,32.21,8.89,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with CHIKV infectious saliva 7 days post infection,61.53,percent,24.57,29.93,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with CHIKV infectious saliva 10 days post infection,33.33,percent,31.77,23.43,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with CHIKV infectious saliva 14 days post infection,20,percent,28.1,15.7,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with CHIKV infectious saliva 21 days post infection,30,percent,24.3,18.1,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with DENV infectious saliva 3 days post infection,0,percent,30.8,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with DENV infectious saliva 7 days post infection,0,percent,24.7,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with DENV infectious saliva 10 days post infection,6.66,percent,25.24,6.46,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with DENV infectious saliva 14 days post infection,0,percent,24.7,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER002,transmission efficiency,proportion of mosquitoes with DENV infectious saliva 21 days post infection,0,percent,16.8,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with CHIKV detected in saliva among mosquitoes with disseminated virus in head 3 DPI,NA,percent,NA,NA,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s4,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with CHIKV detected in saliva among mosquitoes with disseminated virus in head 7 DPI,22.2,percent,37.8,19.4,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with CHIKV detected in saliva among mosquitoes with disseminated virus in head 10 DPI,88.9,percent,10.8,37.1,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with CHIKV detected in saliva among mosquitoes with disseminated virus in head 14 DPI,72.7,percent,21.3,33.7,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with CHIKV detected in saliva among mosquitoes with disseminated virus in head 21 DPI,81.8,percent,15.9,33.6,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with DENV detected in saliva among mosquitoes with disseminated virus in head 3 DPI,NA,percent,NA,NA,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with DENV detected in saliva among mosquitoes with disseminated virus in head 7 DPI,NA,percent,NA,NA,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with DENV detected in saliva among mosquitoes with disseminated virus in head 10 DPI,NA,percent,NA,NA,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with DENV detected in saliva among mosquitoes with disseminated virus in head 14 DPI,0,percent,97.5,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with DENV detected in saliva among mosquitoes with disseminated virus in head 21 DPI,0,percent,97.5,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with CHIKV detected in saliva among mosquitoes with disseminated virus in head 3 DPI,42.9,percent,38.7,33,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with CHIKV detected in saliva among mosquitoes with disseminated virus in head 7 DPI,80,percent,15.7,28.1,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with CHIKV detected in saliva among mosquitoes with disseminated virus in head 10 DPI,50,percent,31.3,31.3,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with CHIKV detected in saliva among mosquitoes with disseminated virus in head 14 DPI,57.1,percent,25.2,28.2,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with CHIKV detected in saliva among mosquitoes with disseminated virus in head 21 DPI,36.4,percent,32.8,25.5,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with DENV detected in saliva among mosquitoes with disseminated virus in head 3 DPI,NA,percent,NA,NA,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with DENV detected in saliva among mosquitoes with disseminated virus in head 7 DPI,0,percent,97.5,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with DENV detected in saliva among mosquitoes with disseminated virus in head 10 DPI,0,percent,33.6,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with DENV detected in saliva among mosquitoes with disseminated virus in head 14 DPI,12.5,percent,25.8,10.9,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with DENV detected in saliva among mosquitoes with disseminated virus in head 21 DPI,29.4,percent,26.6,19.1,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with CHIKV detected in saliva among mosquitoes with disseminated virus in head 3 DPI,100,percent,0,97.5,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with CHIKV detected in saliva among mosquitoes with disseminated virus in head 7 DPI,42.9,percent,38.7,33,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with CHIKV detected in saliva among mosquitoes with disseminated virus in head 10 DPI,81.8,percent,15.9,33.6,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with CHIKV detected in saliva among mosquitoes with disseminated virus in head 14 DPI,66.7,percent,25.8,36.8,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with CHIKV detected in saliva among mosquitoes with disseminated virus in head 21 DPI,66.7,percent,20,25.7,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with DENV detected in saliva among mosquitoes with disseminated virus in head 3 DPI,NA,percent,NA,NA,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with DENV detected in saliva among mosquitoes with disseminated virus in head 7 DPI,NA,percent,NA,NA,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with DENV detected in saliva among mosquitoes with disseminated virus in head 10 DPI,NA,percent,NA,NA,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with DENV detected in saliva among mosquitoes with disseminated virus in head 14 DPI,NA,percent,NA,NA,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with DENV detected in saliva among mosquitoes with disseminated virus in head 21 DPI,NA,percent,NA,NA,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with CHIKV detected in saliva among mosquitoes with disseminated virus in head 3 DPI,25,percent,55.6,24.4,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with CHIKV detected in saliva among mosquitoes with disseminated virus in head 7 DPI,70,percent,23.3,35.2,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with CHIKV detected in saliva among mosquitoes with disseminated virus in head 10 DPI,50,percent,31.3,31.3,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with CHIKV detected in saliva among mosquitoes with disseminated virus in head 14 DPI,30.8,percent,30.6,21.7,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with CHIKV detected in saliva among mosquitoes with disseminated virus in head 21 DPI,27.8,percent,25.7,18.1,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with DENV detected in saliva among mosquitoes with disseminated virus in head 3 DPI,NA,percent,NA,NA,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with DENV detected in saliva among mosquitoes with disseminated virus in head 7 DPI,0,percent,97.5,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with DENV detected in saliva among mosquitoes with disseminated virus in head 10 DPI,33.3,percent,57.3,32.5,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with DENV detected in saliva among mosquitoes with disseminated virus in head 14 DPI,14.3,percent,43.6,13.9,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with DENV detected in saliva among mosquitoes with disseminated virus in head 21 DPI,18.8,percent,26.8,14.8,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with CHIKV detected in saliva among mosquitoes with disseminated virus in head 3 DPI,NA,percent,NA,NA,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with CHIKV detected in saliva among mosquitoes with disseminated virus in head 7 DPI,20,percent,35.6,17.5,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with CHIKV detected in saliva among mosquitoes with disseminated virus in head 10 DPI,76.9,percent,18.1,30.7,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with CHIKV detected in saliva among mosquitoes with disseminated virus in head 14 DPI,56.2,percent,24,26.3,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with CHIKV detected in saliva among mosquitoes with disseminated virus in head 21 DPI,42.1,percent,24.4,21.8,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with DENV detected in saliva among mosquitoes with disseminated virus in head 3 DPI,NA,percent,NA,NA,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with DENV detected in saliva among mosquitoes with disseminated virus in head 7 DPI,NA,percent,NA,NA,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with DENV detected in saliva among mosquitoes with disseminated virus in head 10 DPI,NA,percent,NA,NA,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with DENV detected in saliva among mosquitoes with disseminated virus in head 14 DPI,NA,percent,NA,NA,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with DENV detected in saliva among mosquitoes with disseminated virus in head 21 DPI,0,percent,97.5,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with CHIKV detected in saliva among mosquitoes with disseminated virus in head 3 DPI,18.2,percent,33.6,15.9,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with CHIKV detected in saliva among mosquitoes with disseminated virus in head 7 DPI,81.2,percent,14.8,26.8,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with CHIKV detected in saliva among mosquitoes with disseminated virus in head 10 DPI,50,percent,24,24,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with CHIKV detected in saliva among mosquitoes with disseminated virus in head 14 DPI,47.1,percent,25.1,24.1,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with CHIKV detected in saliva among mosquitoes with disseminated virus in head 21 DPI,15.8,percent,23.8,12.4,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with DENV detected in saliva among mosquitoes with disseminated virus in head 3 DPI,NA,percent,NA,NA,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with DENV detected in saliva among mosquitoes with disseminated virus in head 7 DPI,33.3,percent,57.3,32.5,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with DENV detected in saliva among mosquitoes with disseminated virus in head 10 DPI,0,percent,52.2,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with DENV detected in saliva among mosquitoes with disseminated virus in head 14 DPI,0,percent,24.7,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with DENV detected in saliva among mosquitoes with disseminated virus in head 21 DPI,47.4,percent,23.7,22.95,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with CHIKV detected in saliva among mosquitoes with disseminated virus in head 3 DPI,0,percent,84.2,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with CHIKV detected in saliva among mosquitoes with disseminated virus in head 7 DPI,43.8,percent,26.3,24,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with CHIKV detected in saliva among mosquitoes with disseminated virus in head 10 DPI,92.9,percent,6.9,26.8,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with CHIKV detected in saliva among mosquitoes with disseminated virus in head 14 DPI,76.5,percent,16.7,26.4,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with CHIKV detected in saliva among mosquitoes with disseminated virus in head 21 DPI,57.9,percent,21.8,24.4,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with DENV detected in saliva among mosquitoes with disseminated virus in head 3 DPI,NA,percent,NA,NA,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with DENV detected in saliva among mosquitoes with disseminated virus in head 7 DPI,NA,percent,NA,NA,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with DENV detected in saliva among mosquitoes with disseminated virus in head 10 DPI,NA,percent,NA,NA,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with DENV detected in saliva among mosquitoes with disseminated virus in head 14 DPI,NA,percent,NA,NA,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with DENV detected in saliva among mosquitoes with disseminated virus in head 21 DPI,0,percent,97.5,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with CHIKV detected in saliva among mosquitoes with disseminated virus in head 3 DPI,14.3,percent,43.6,13.9,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with CHIKV detected in saliva among mosquitoes with disseminated virus in head 7 DPI,72.7,percent,21.3,33.7,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with CHIKV detected in saliva among mosquitoes with disseminated virus in head 10 DPI,36.4,percent,32.8,25.5,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with CHIKV detected in saliva among mosquitoes with disseminated virus in head 14 DPI,25,percent,22.2,19.5,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with CHIKV detected in saliva among mosquitoes with disseminated virus in head 21 DPI,31.6,percent,25,18.9,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with DENV detected in saliva among mosquitoes with disseminated virus in head 3 DPI,NA,percent,NA,NA,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with DENV detected in saliva among mosquitoes with disseminated virus in head 7 DPI,0,percent,60.2,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with DENV detected in saliva among mosquitoes with disseminated virus in head 10 DPI,11.1,percent,37.1,10.8,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with DENV detected in saliva among mosquitoes with disseminated virus in head 14 DPI,0,percent,41,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER003,transmission rate,proportion of mosquitoes with DENV detected in saliva among mosquitoes with disseminated virus in head 21 DPI,0,percent,24.7,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s5,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude temperature and post infection duration,NA,viral particles,NA,NA,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude temperature and post infection duration,38,viral particles,45,45,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude temperature and post infection duration,34,viral particles,67,67,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude temperature and post infection duration,10,viral particles,8,8,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude temperature and post infection duration,21,viral particles,28,28,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude variable temperature and post infection duration,NA,viral particles,NA,NA,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1temp varied around a 20 degree average,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude variable temperature and post infection duration,35,viral particles,22,22,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1temp varied around a 20 degree average,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude variable temperature and post infection duration,27,viral particles,28,28,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1temp varied around a 20 degree average,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude variable temperature and post infection duration,59,viral particles,121,121,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1temp varied around a 20 degree average,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude variable temperature and post infection duration,103,viral particles,199,199,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1temp varied around a 20 degree average,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude temperature and post infection duration,5,viral particles,4,4,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude temperature and post infection duration,58,viral particles,121,121,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude temperature and post infection duration,16,viral particles,22,22,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude temperature and post infection duration,6,viral particles,3,3,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude temperature and post infection duration,4,viral particles,2,2,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude temperature and post infection duration,24,viral particles,NA,NA,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude temperature and post infection duration,40,viral particles,52,52,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude temperature and post infection duration,374,viral particles,987,987,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude temperature and post infection duration,22,viral particles,15,15,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude temperature and post infection duration,25,viral particles,44,44,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude variable temperature and post infection duration,4,viral particles,NA,NA,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1temp varied around a 20 degree average,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude variable temperature and post infection duration,55,viral particles,63,63,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1temp varied around a 20 degree average,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude variable temperature and post infection duration,85,viral particles,106,106,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1temp varied around a 20 degree average,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude variable temperature and post infection duration,53,viral particles,70,70,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1temp varied around a 20 degree average,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude variable temperature and post infection duration,16,viral particles,13,13,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1temp varied around a 20 degree average,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude temperature and post infection duration,18,viral particles,NA,NA,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude temperature and post infection duration,11,viral particles,13,13,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude temperature and post infection duration,31,viral particles,36,36,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude temperature and post infection duration,38,viral particles,70,70,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude temperature and post infection duration,20,viral particles,12,12,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude temperature and post infection duration,NA,viral particles,NA,NA,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude temperature and post infection duration,31,viral particles,13,13,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude temperature and post infection duration,104,viral particles,246,246,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude temperature and post infection duration,140,viral particles,266,266,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude temperature and post infection duration,554,viral particles,986,986,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude variable temperature and post infection duration,NA,viral particles,NA,NA,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1temp varied around a 20 degree average,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude variable temperature and post infection duration,8,viral particles,3,3,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1temp varied around a 20 degree average,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude variable temperature and post infection duration,6,viral particles,8,8,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1temp varied around a 20 degree average,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude variable temperature and post infection duration,32,viral particles,56,56,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1temp varied around a 20 degree average,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude variable temperature and post infection duration,98,viral particles,261,261,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1temp varied around a 20 degree average,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude temperature and post infection duration,1504,viral particles,2116,2116,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude temperature and post infection duration,414,viral particles,825,825,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude temperature and post infection duration,39,viral particles,34,34,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude temperature and post infection duration,37,viral particles,33,33,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude temperature and post infection duration,13,viral particles,16,16,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude temperature and post infection duration,NA,viral particles,NA,NA,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude temperature and post infection duration,23,viral particles,23,23,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude temperature and post infection duration,29,viral particles,28,28,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude temperature and post infection duration,223,viral particles,567,567,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude temperature and post infection duration,32,viral particles,89,89,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude variable temperature and post infection duration,NA,viral particles,NA,NA,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1temp varied around a 20 degree average,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude variable temperature and post infection duration,29,viral particles,22,22,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1temp varied around a 20 degree average,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude variable temperature and post infection duration,30,viral particles,35,35,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1temp varied around a 20 degree average,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude variable temperature and post infection duration,170,viral particles,514,514,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1temp varied around a 20 degree average,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude variable temperature and post infection duration,54,viral particles,103,103,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1temp varied around a 20 degree average,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude temperature and post infection duration,100,viral particles,NA,NA,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude temperature and post infection duration,24,viral particles,25,25,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude temperature and post infection duration,11,viral particles,8,8,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude temperature and post infection duration,105,viral particles,169,169,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (CHIKV) detected in saliva as a function of altitude temperature and post infection duration,7,viral particles,5,5,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (DENV) detected in saliva as a function of altitude temperature and post infection duration,17,viral particles,16,16,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (DENV) detected in saliva as a function of altitude temperature and post infection duration,23,viral particles,21,21,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,149,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (DENV) detected in saliva as a function of altitude temperature and post infection duration,4,viral particles,NA,NA,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (DENV) detected in saliva as a function of altitude temperature and post infection duration,2,viral particles,NA,NA,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (DENV) detected in saliva as a function of altitude temperature and post infection duration,42,viral particles,66,66,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,542,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (DENV) detected in saliva as a function of altitude temperature and post infection duration,2,viral particles,NA,NA,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (DENV) detected in saliva as a function of altitude temperature and post infection duration,19,viral particles,33,33,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,762,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MER004,viral titers,mean number of viral particles (DENV) detected in saliva as a function of altitude temperature and post infection duration,110,viral particles,NA,NA,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,elevation,elevation at which original eggs were obtained,1209,m,NA,NA,NA,NA,NA,Tirana Albania,field,01/07/2015,4,decimal,41.32737671,19.81816573,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s6,Mercier et al. 2022. Impact of temperature on dengue and chikungunya transmission by the mosquito Aedes albopictus. Science Reports 12 6973.,10.1038/s41598-022-10977-4,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,NA,survival,percent of larvae pupating,94.25,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,660,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,15.6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=700),TRUE,01/01/2011
NA,NA,survival,percent of larvae pupating,98.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,690,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21.1,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=700),TRUE,01/01/2011
NA,NA,survival,percent of larvae pupating,97.36,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,681,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26.7,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=700),TRUE,01/01/2011
NA,NA,survival,percent of larvae pupating,92.07,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,644,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,32.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=700),TRUE,01/01/2011
NA,NA,survival,percent of larvae pupating,79.94,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,560,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,34.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=700),TRUE,01/01/2011
NA,NA,survival,percentage of eggs hatching within 24 hrs after being submerged in water,95.05,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,24.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=210),TRUE,01/01/2011
NA,NA,survival,percentage of eggs hatching within 24 hrs after being submerged in water,37.15,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,78,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=210),TRUE,01/01/2011
NA,NA,survival,percentage of eggs hatching within 24 hrs after being submerged in water,10.22,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,21,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,29.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=210),TRUE,01/01/2011
NA,NA,survival,percentage of eggs hatching within 24 hrs after being submerged in water,4.02,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,32.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=210),TRUE,01/01/2011
NA,NA,survival,percentage of eggs hatching within 24 hrs after being submerged in water,1.55,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,34.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=210),TRUE,01/01/2011
NA,NA,survival,percentage of eggs hatching within 48 hrs after being submerged in water,98,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,206,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,24.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=210),TRUE,01/01/2011
NA,NA,survival,percentage of eggs hatching within 48 hrs after being submerged in water,57,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=210),TRUE,01/01/2011
NA,NA,survival,percentage of eggs hatching within 48 hrs after being submerged in water,20.1,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,42,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,29.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=210),TRUE,01/01/2011
NA,NA,survival,percentage of eggs hatching within 48 hrs after being submerged in water,4.02,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,32.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=210),TRUE,01/01/2011
NA,NA,survival,percentage of eggs hatching within 48 hrs after being submerged in water,1.55,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,34.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=210),TRUE,01/01/2011
NA,MOH001,survival,percent surviving life stage,94.1,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,94,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to pupa,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=100),TRUE,01/01/2011
NA,MOH001,survival,percent surviving life stage,98.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,99,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to pupa,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=100),TRUE,01/01/2011
NA,MOH001,survival,percent surviving life stage,97.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,97,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to pupa,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=100),TRUE,01/01/2011
NA,MOH001,survival,percent surviving life stage,87.4,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,92,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to pupa,NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=100),TRUE,01/01/2011
NA,MOH001,survival,percent surviving life stage,74.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,80,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to pupa,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=100),TRUE,01/01/2011
NA,MOH002,pupation rate,cumulative % pupation as a function of temperature and time,0.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration from hatching to pupation to get originaltraitvalue,4,days,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to pupa,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2011
NA,MOH002,pupation rate,cumulative % pupation as a function of temperature and time,29.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration from hatching to pupation to get originaltraitvalue,5,days,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to pupa,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2011
NA,MOH002,pupation rate,cumulative % pupation as a function of temperature and time,76.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration from hatching to pupation to get originaltraitvalue,6,days,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to pupa,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2011
NA,MOH002,pupation rate,cumulative % pupation as a function of temperature and time,87.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration from hatching to pupation to get originaltraitvalue,7,days,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to pupa,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2011
NA,MOH002,pupation rate,cumulative % pupation as a function of temperature and time,94.1,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration from hatching to pupation to get originaltraitvalue,8,days,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to pupa,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2011
NA,MOH002,pupation rate,cumulative % pupation as a function of temperature and time,39.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration from hatching to pupation to get originaltraitvalue,4,days,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to pupa,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2011
NA,MOH002,pupation rate,cumulative % pupation as a function of temperature and time,84.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration from hatching to pupation to get originaltraitvalue,5,days,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to pupa,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2011
NA,MOH002,pupation rate,cumulative % pupation as a function of temperature and time,98,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration from hatching to pupation to get originaltraitvalue,6,days,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to pupa,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2011
NA,MOH002,pupation rate,cumulative % pupation as a function of temperature and time,98.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration from hatching to pupation to get originaltraitvalue,7,days,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to pupa,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2011
NA,MOH002,pupation rate,cumulative % pupation as a function of temperature and time,78.4,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration from hatching to pupation to get originaltraitvalue,4,days,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to pupa,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2011
NA,MOH002,pupation rate,cumulative % pupation as a function of temperature and time,92.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration from hatching to pupation to get originaltraitvalue,5,days,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to pupa,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2011
NA,MOH002,pupation rate,cumulative % pupation as a function of temperature and time,95.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration from hatching to pupation to get originaltraitvalue,6,days,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to pupa,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2011
NA,MOH002,pupation rate,cumulative % pupation as a function of temperature and time,97.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration from hatching to pupation to get originaltraitvalue,7,days,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to pupa,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2011
NA,MOH002,pupation rate,cumulative % pupation as a function of temperature and time,14.1,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration from hatching to pupation to get originaltraitvalue,4,days,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to pupa,NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2011
NA,MOH002,pupation rate,cumulative % pupation as a function of temperature and time,63.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration from hatching to pupation to get originaltraitvalue,5,days,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to pupa,NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2011
NA,MOH002,pupation rate,cumulative % pupation as a function of temperature and time,79.4,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration from hatching to pupation to get originaltraitvalue,6,days,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to pupa,NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2011
NA,MOH002,pupation rate,cumulative % pupation as a function of temperature and time,87.4,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration from hatching to pupation to get originaltraitvalue,7,days,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to pupa,NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2011
NA,MOH002,pupation rate,cumulative % pupation as a function of temperature and time,91.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration from hatching to pupation to get originaltraitvalue,8,days,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to pupa,NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2011
NA,MOH002,pupation rate,cumulative % pupation as a function of temperature and time,18.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration from hatching to pupation to get originaltraitvalue,4,days,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to pupa,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2011
NA,MOH002,pupation rate,cumulative % pupation as a function of temperature and time,34.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration from hatching to pupation to get originaltraitvalue,5,days,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to pupa,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2011
NA,MOH002,pupation rate,cumulative % pupation as a function of temperature and time,60.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration from hatching to pupation to get originaltraitvalue,6,days,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to pupa,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2011
NA,MOH002,pupation rate,cumulative % pupation as a function of temperature and time,74.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration from hatching to pupation to get originaltraitvalue,7,days,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to pupa,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2011
NA,MOH002,pupation rate,cumulative % pupation as a function of temperature and time,79.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration from hatching to pupation to get originaltraitvalue,8,days,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to pupa,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2011
NA,MOH003,survival,percentage of eggs hatching within 24 hrs after being submerged in water,95,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,24.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,text,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2011
NA,MOH003,survival,percentage of eggs hatching within 24 hrs after being submerged in water,37,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,text,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2011
NA,MOH003,survival,percentage of eggs hatching within 24 hrs after being submerged in water,10,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,29.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,text,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2011
NA,MOH003,survival,percentage of eggs hatching within 24 hrs after being submerged in water,3.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,32.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,text,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2011
NA,MOH003,survival,percentage of eggs hatching within 24 hrs after being submerged in water,1.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,34.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,text,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2011
NA,MOH003,survival,percentage of eggs hatching within 48 hrs after being submerged in water,98,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,24.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,text,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2011
NA,MOH003,survival,percentage of eggs hatching within 48 hrs after being submerged in water,57,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,26.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,text,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2011
NA,MOH003,survival,percentage of eggs hatching within 48 hrs after being submerged in water,20,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,29.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,text,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2011
NA,MOH003,survival,percentage of eggs hatching within 48 hrs after being submerged in water,3.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,32.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,text,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2011
NA,MOH003,survival,percentage of eggs hatching within 48 hrs after being submerged in water,1.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Curepe Trinidad,field,NA,0,decimal,10.63857999,-61.40907367,Aedes aegypti,Yellow fever mosquito,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,34.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,text,Mohammed and Chadee 2011. Effects of different temperature regimens on the development of Aedes aegypti (L.) (Diptera: Culicidae) mosquitoes. Acta Trop. 119,10.1016/j.actatropica.2011.04.004,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2011
PHXX658,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX659,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX660,NA,development time,individual-level duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX661,NA,development time,individual-level duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX662,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX663,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX664,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX665,NA,development time,individual-level duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX666,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX667,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX668,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX669,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX670,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX671,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX672,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX673,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX674,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX675,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,MON002,mortality,percent not surviving life stage,6.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Recife Brazil,colony,01/10/2004,4,decimal,-8.055263657,-34.87605208,Aedes albopictus,NA,NA,NA,39,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Monteiro et al. 2007. Eclosion rate development and survivorship of Aedes albopictus (Skuse) (Diptera: Culicidae) under different water temperatures. Neotropical Entomology. 36:6,10.1590/S1519-566X2007000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=45),TRUE,01/01/2007
NA,MON002,mortality,percent not surviving life stage,5.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Recife Brazil,colony,01/10/2004,4,decimal,-8.055263657,-34.87605208,Aedes albopictus,NA,NA,NA,39,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Monteiro et al. 2007. Eclosion rate development and survivorship of Aedes albopictus (Skuse) (Diptera: Culicidae) under different water temperatures. Neotropical Entomology. 36:6,10.1590/S1519-566X2007000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=45),TRUE,01/01/2007
NA,MON002,mortality,percent not surviving life stage,12.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Recife Brazil,colony,01/10/2004,4,decimal,-8.055263657,-34.87605208,Aedes albopictus,NA,NA,NA,33,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Monteiro et al. 2007. Eclosion rate development and survivorship of Aedes albopictus (Skuse) (Diptera: Culicidae) under different water temperatures. Neotropical Entomology. 36:6,10.1590/S1519-566X2007000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=45),TRUE,01/01/2007
NA,MON002,mortality,percent not surviving life stage,4.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Recife Brazil,colony,01/10/2004,4,decimal,-8.055263657,-34.87605208,Aedes albopictus,NA,NA,NA,37,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Monteiro et al. 2007. Eclosion rate development and survivorship of Aedes albopictus (Skuse) (Diptera: Culicidae) under different water temperatures. Neotropical Entomology. 36:6,10.1590/S1519-566X2007000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=45),TRUE,01/01/2007
NA,MON002,mortality,percent not surviving life stage,5.3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Recife Brazil,colony,01/10/2004,4,decimal,-8.055263657,-34.87605208,Aedes albopictus,NA,NA,NA,37,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Monteiro et al. 2007. Eclosion rate development and survivorship of Aedes albopictus (Skuse) (Diptera: Culicidae) under different water temperatures. Neotropical Entomology. 36:6,10.1590/S1519-566X2007000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=45),TRUE,01/01/2007
NA,MON002,mortality,percent not surviving life stage,6.3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Recife Brazil,colony,01/10/2004,4,decimal,-8.055263657,-34.87605208,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Monteiro et al. 2007. Eclosion rate development and survivorship of Aedes albopictus (Skuse) (Diptera: Culicidae) under different water temperatures. Neotropical Entomology. 36:6,10.1590/S1519-566X2007000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=45),TRUE,01/01/2007
NA,MON002,mortality,percent not surviving life stage,2.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Recife Brazil,colony,01/10/2004,4,decimal,-8.055263657,-34.87605208,Aedes albopictus,NA,NA,NA,37,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Monteiro et al. 2007. Eclosion rate development and survivorship of Aedes albopictus (Skuse) (Diptera: Culicidae) under different water temperatures. Neotropical Entomology. 36:6,10.1590/S1519-566X2007000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=45),TRUE,01/01/2007
NA,MON002,mortality,percent not surviving life stage,3.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Recife Brazil,colony,01/10/2004,4,decimal,-8.055263657,-34.87605208,Aedes albopictus,NA,NA,NA,37,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Monteiro et al. 2007. Eclosion rate development and survivorship of Aedes albopictus (Skuse) (Diptera: Culicidae) under different water temperatures. Neotropical Entomology. 36:6,10.1590/S1519-566X2007000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=45),TRUE,01/01/2007
NA,MON002,mortality,percent not surviving life stage,7.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Recife Brazil,colony,01/10/2004,4,decimal,-8.055263657,-34.87605208,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Monteiro et al. 2007. Eclosion rate development and survivorship of Aedes albopictus (Skuse) (Diptera: Culicidae) under different water temperatures. Neotropical Entomology. 36:6,10.1590/S1519-566X2007000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=45),TRUE,01/01/2007
NA,MON002,mortality,percent not surviving life stage,4.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Recife Brazil,colony,01/10/2004,4,decimal,-8.055263657,-34.87605208,Aedes albopictus,NA,NA,NA,37,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Monteiro et al. 2007. Eclosion rate development and survivorship of Aedes albopictus (Skuse) (Diptera: Culicidae) under different water temperatures. Neotropical Entomology. 36:6,10.1590/S1519-566X2007000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=45),TRUE,01/01/2007
NA,MON002,mortality,percent not surviving life stage,3.1,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Recife Brazil,colony,01/10/2004,4,decimal,-8.055263657,-34.87605208,Aedes albopictus,NA,NA,NA,37,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Monteiro et al. 2007. Eclosion rate development and survivorship of Aedes albopictus (Skuse) (Diptera: Culicidae) under different water temperatures. Neotropical Entomology. 36:6,10.1590/S1519-566X2007000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=45),TRUE,01/01/2007
NA,MON002,mortality,percent not surviving life stage,18.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Recife Brazil,colony,01/10/2004,4,decimal,-8.055263657,-34.87605208,Aedes albopictus,NA,NA,NA,45,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Monteiro et al. 2007. Eclosion rate development and survivorship of Aedes albopictus (Skuse) (Diptera: Culicidae) under different water temperatures. Neotropical Entomology. 36:6,10.1590/S1519-566X2007000600021,NA,NA,Paul Huxley,phuxly@gmail.com,trait value was set to zero because complete juvenile mortality occured at this temperature. interactor1number is the number of individuals that did not survive life stage from the initial number of individuals at the start of the experiment (n=45),TRUE,01/01/2007
NA,MON002,mortality,percent not surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Recife Brazil,colony,01/10/2004,4,decimal,-8.055263657,-34.87605208,Aedes albopictus,NA,NA,NA,37,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Monteiro et al. 2007. Eclosion rate development and survivorship of Aedes albopictus (Skuse) (Diptera: Culicidae) under different water temperatures. Neotropical Entomology. 36:6,10.1590/S1519-566X2007000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=45),TRUE,01/01/2007
NA,MON002,mortality,percent not surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Recife Brazil,colony,01/10/2004,4,decimal,-8.055263657,-34.87605208,Aedes albopictus,NA,NA,NA,37,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Monteiro et al. 2007. Eclosion rate development and survivorship of Aedes albopictus (Skuse) (Diptera: Culicidae) under different water temperatures. Neotropical Entomology. 36:6,10.1590/S1519-566X2007000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=45),TRUE,01/01/2007
NA,MON002,mortality,percent not surviving life stage,99.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Recife Brazil,colony,01/10/2004,4,decimal,-8.055263657,-34.87605208,Aedes albopictus,NA,NA,NA,45,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Monteiro et al. 2007. Eclosion rate development and survivorship of Aedes albopictus (Skuse) (Diptera: Culicidae) under different water temperatures. Neotropical Entomology. 36:6,10.1590/S1519-566X2007000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=45),TRUE,01/01/2007
NA,MON002,mortality,percentage not surviving life stage,18.3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Recife Brazil,colony,01/10/2004,4,decimal,-8.055263657,-34.87605208,Aedes albopictus,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Monteiro et al. 2007. Eclosion rate development and survivorship of Aedes albopictus (Skuse) (Diptera: Culicidae) under different water temperatures. Neotropical Entomology. 36:6,10.1590/S1519-566X2007000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did not survive life stage from an initial number of n=45 at the start of the experiment,TRUE,01/01/2007
NA,MON002,mortality,percentage not surviving life stage,17.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Recife Brazil,colony,01/10/2004,4,decimal,-8.055263657,-34.87605208,Aedes albopictus,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Monteiro et al. 2007. Eclosion rate development and survivorship of Aedes albopictus (Skuse) (Diptera: Culicidae) under different water temperatures. Neotropical Entomology. 36:6,10.1590/S1519-566X2007000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did not survive life stage from an initial number of n=45 at the start of the experiment,TRUE,01/01/2007
NA,MON002,mortality,percentage not surviving life stage,99.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Recife Brazil,colony,01/10/2004,4,decimal,-8.055263657,-34.87605208,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Monteiro et al. 2007. Eclosion rate development and survivorship of Aedes albopictus (Skuse) (Diptera: Culicidae) under different water temperatures. Neotropical Entomology. 36:6,10.1590/S1519-566X2007000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did not survive life stage from an initial number of n=45 at the start of the experiment,TRUE,01/01/2007
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,95,percent,0.71,0.71,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,380,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),male and female,20,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=400,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,32,percent,13.8,13.8,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,1e-4,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,128,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),male and female,20,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=400,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,21,percent,13.27,13.27,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0.001,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,84,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),male and female,20,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=400,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,2,percent,0.54,0.54,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0.01,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),male and female,20,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=400,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0.1,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),male and female,20,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=400,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,1,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),male and female,20,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=400,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,100,percent,0,0,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,400,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),male and female,25,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=400,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,66,percent,3.35,3.35,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,1e-4,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,264,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),male and female,25,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=400,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,21,percent,3.03,3.03,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0.001,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,84,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),male and female,25,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=400,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,4,percent,0.68,0.68,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0.01,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),male and female,25,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=400,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0.1,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),male and female,25,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=400,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,1,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),male and female,25,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=400,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,100,percent,0,0,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,400,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),male and female,30,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=400,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,65,percent,3.36,3.36,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,1e-4,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,260,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),male and female,30,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=400,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,31,percent,3.54,3.54,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0.001,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,124,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),male and female,30,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=400,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,20,percent,3.58,3.58,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0.01,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,80,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),male and female,30,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=400,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,1,percent,0.55,0.55,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0.1,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),male and female,30,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=400,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,1,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),male and female,30,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=400,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,58.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,223,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),male,20,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=200 assuming a 50:50 sex ratio,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,40.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,1e-4,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,52,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),male,20,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=200 assuming a 50:50 sex ratio,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,61.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0.001,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,52,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),male,20,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=200 assuming a 50:50 sex ratio,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0.01,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),male,20,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=200 assuming a 50:50 sex ratio,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0.1,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),male,20,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=200 assuming a 50:50 sex ratio,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,1,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),male,20,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=200 assuming a 50:50 sex ratio,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,49.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,199,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),male,25,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=200 assuming a 50:50 sex ratio,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,49.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,1e-4,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,130,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),male,25,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=200 assuming a 50:50 sex ratio,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,43.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0.001,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,36,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),male,25,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=200 assuming a 50:50 sex ratio,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,46.1,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0.01,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),male,25,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=200 assuming a 50:50 sex ratio,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0.1,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),male,25,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=200 assuming a 50:50 sex ratio,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,1,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),male,25,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=200 assuming a 50:50 sex ratio,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,44,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,176,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),male,30,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=200 assuming a 50:50 sex ratio,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,55.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,1e-4,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,145,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),male,30,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=200 assuming a 50:50 sex ratio,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,45.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0.001,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,57,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),male,30,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=200 assuming a 50:50 sex ratio,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,52.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0.01,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,42,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),male,30,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=200 assuming a 50:50 sex ratio,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0.1,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),male,30,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=200 assuming a 50:50 sex ratio,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,1,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),male,30,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=200 assuming a 50:50 sex ratio,TRUE,01/01/2020
NA,NA,longevity,mean duration of life stage as a function of larvicide exposure during third larval instar,15.06,days,9.01,9.01,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,380,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,20,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain.,TRUE,01/01/2020
NA,NA,longevity,mean duration of life stage as a function of larvicide exposure during third larval instar,16.5,days,9.52,9.52,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,1e-4,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,128,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,20,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain.,TRUE,01/01/2020
NA,NA,longevity,mean duration of life stage as a function of larvicide exposure during third larval instar,4.95,days,3.1,3.1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0.001,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,84,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,20,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain.,TRUE,01/01/2020
NA,NA,longevity,mean duration of life stage as a function of larvicide exposure during third larval instar,2,days,0,0,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0.01,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,20,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain.,TRUE,01/01/2020
NA,NA,longevity,mean duration of life stage as a function of larvicide exposure during third larval instar,20.9,days,8.1,8.1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,400,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,25,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain.,TRUE,01/01/2020
NA,NA,longevity,mean duration of life stage as a function of larvicide exposure during third larval instar,13.9,days,8.5,8.5,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,1e-4,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,264,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,25,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain.,TRUE,01/01/2020
NA,NA,longevity,mean duration of life stage as a function of larvicide exposure during third larval instar,14.2,days,6.6,6.6,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0.001,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,84,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,25,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain.,TRUE,01/01/2020
NA,NA,longevity,mean duration of life stage as a function of larvicide exposure during third larval instar,4.8,days,2.4,2.4,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0.01,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,25,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain.,TRUE,01/01/2020
NA,NA,longevity,mean duration of life stage as a function of larvicide exposure during third larval instar,12.8,days,4.1,4.1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,400,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,30,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain.,TRUE,01/01/2020
NA,NA,longevity,mean duration of life stage as a function of larvicide exposure during third larval instar,9.7,days,5.01,5.01,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,1e-4,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,260,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,30,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain.,TRUE,01/01/2020
NA,NA,longevity,mean duration of life stage as a function of larvicide exposure during third larval instar,9.3,days,3.2,3.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0.001,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,124,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,30,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain.,TRUE,01/01/2020
NA,NA,longevity,mean duration of life stage as a function of larvicide exposure during third larval instar,7.9,days,2.21,2.21,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0.01,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,80,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,30,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain.,TRUE,01/01/2020
NA,NA,longevity,mean duration of life stage as a function of larvicide exposure during third larval instar,18.8,days,8.81,8.81,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,223,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,20,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain.,TRUE,01/01/2020
NA,NA,longevity,mean duration of life stage as a function of larvicide exposure during third larval instar,11,days,8,8,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,1e-4,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,52,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,20,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain.,TRUE,01/01/2020
NA,NA,longevity,mean duration of life stage as a function of larvicide exposure during third larval instar,3.6,days,1.1,1.1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0.001,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,52,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,20,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain.,TRUE,01/01/2020
NA,NA,longevity,mean duration of life stage as a function of larvicide exposure during third larval instar,2,days,0,0,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0.01,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,20,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain.,TRUE,01/01/2020
NA,NA,longevity,mean duration of life stage as a function of larvicide exposure during third larval instar,20.3,days,5.2,5.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain.,TRUE,01/01/2020
NA,NA,longevity,mean duration of life stage as a function of larvicide exposure during third larval instar,13.88,days,8.7,8.7,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,1e-4,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain.,TRUE,01/01/2020
NA,NA,longevity,mean duration of life stage as a function of larvicide exposure during third larval instar,11.8,days,4.3,4.3,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0.001,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,199,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain.,TRUE,01/01/2020
NA,NA,longevity,mean duration of life stage as a function of larvicide exposure during third larval instar,5.86,days,0.3,0.3,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0.01,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,130,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain.,TRUE,01/01/2020
NA,NA,longevity,mean duration of life stage as a function of larvicide exposure during third larval instar,10.2,days,2,2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,36,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,30,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain.,TRUE,01/01/2020
NA,NA,longevity,mean duration of life stage as a function of larvicide exposure during third larval instar,7.75,days,3.01,3.01,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,1e-4,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,30,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain.,TRUE,01/01/2020
NA,NA,longevity,mean duration of life stage as a function of larvicide exposure during third larval instar,6.8,days,2.22,2.22,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0.001,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,30,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain.,TRUE,01/01/2020
NA,NA,longevity,mean duration of life stage as a function of larvicide exposure during third larval instar,6.57,days,2.3,2.3,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0.01,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,30,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain.,TRUE,01/01/2020
NA,NA,longevity,mean duration of life stage as a function of larvicide exposure during third larval instar,17.9,days,9.2,9.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,157,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,20,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain.,TRUE,01/01/2020
NA,NA,longevity,mean duration of life stage as a function of larvicide exposure during third larval instar,21,days,5.02,5.02,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,1e-4,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,76,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,20,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain.,TRUE,01/01/2020
NA,NA,longevity,mean duration of life stage as a function of larvicide exposure during third larval instar,7.1,days,2.02,2.02,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0.001,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,32,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,20,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain.,TRUE,01/01/2020
NA,NA,longevity,mean duration of life stage as a function of larvicide exposure during third larval instar,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0.01,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,20,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain.,TRUE,01/01/2020
NA,NA,longevity,mean duration of life stage as a function of larvicide exposure during third larval instar,22.5,days,7.8,7.8,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain.,TRUE,01/01/2020
NA,NA,longevity,mean duration of life stage as a function of larvicide exposure during third larval instar,16,days,10.4,10.4,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,1e-4,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,134,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain.,TRUE,01/01/2020
NA,NA,longevity,mean duration of life stage as a function of larvicide exposure during third larval instar,15.5,days,7.2,7.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0.001,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain.,TRUE,01/01/2020
NA,NA,longevity,mean duration of life stage as a function of larvicide exposure during third larval instar,3.67,days,1.57,1.57,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0.01,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain.,TRUE,01/01/2020
NA,NA,longevity,mean duration of life stage as a function of larvicide exposure during third larval instar,13.57,days,3.14,3.14,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain.,TRUE,01/01/2020
NA,NA,longevity,mean duration of life stage as a function of larvicide exposure during third larval instar,12,days,4.32,4.32,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,1e-4,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,115,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain.,TRUE,01/01/2020
NA,NA,longevity,mean duration of life stage as a function of larvicide exposure during third larval instar,11.3,days,3.02,3.02,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0.001,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,67,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain.,TRUE,01/01/2020
NA,NA,longevity,mean duration of life stage as a function of larvicide exposure during third larval instar,9.6,days,1.57,1.57,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0.01,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,38,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain.,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,78.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,157,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),female,20,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=200 assuming a 50:50 sex ratio,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,38,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,1e-4,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,76,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),female,20,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=200 assuming a 50:50 sex ratio,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,16,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0.001,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,32,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),female,20,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=200 assuming a 50:50 sex ratio,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0.01,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),female,20,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=200 assuming a 50:50 sex ratio,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0.1,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),female,20,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=200 assuming a 50:50 sex ratio,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,1,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),female,20,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=200 assuming a 50:50 sex ratio,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),female,25,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=200 assuming a 50:50 sex ratio,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,1e-4,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,134,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),female,25,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=200 assuming a 50:50 sex ratio,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,24,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0.001,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),female,25,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=200 assuming a 50:50 sex ratio,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0.01,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),female,25,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=200 assuming a 50:50 sex ratio,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0.1,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),female,25,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=200 assuming a 50:50 sex ratio,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,1,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),female,25,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=200 assuming a 50:50 sex ratio,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),female,30,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=200 assuming a 50:50 sex ratio,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,58,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,1e-4,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,115,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),female,30,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=200 assuming a 50:50 sex ratio,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,34,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0.001,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,67,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),female,30,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=200 assuming a 50:50 sex ratio,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,19,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0.01,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,38,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),female,30,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=200 assuming a 50:50 sex ratio,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,0.1,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),female,30,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=200 assuming a 50:50 sex ratio,TRUE,01/01/2020
NA,NA,survival,percentage surviving life stage as a function of larvicide exposure during third larval instar,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,pyriproxyfen concentration,pyriproxyfen quantity per litre of rearing water,1,mg litre-1,NA,NA,NA,NA,NA,Brazil,colony (Rockefeller),01/01/1996,1,decimal,-10,-52,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),female,30,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Moura et al. 2020. What does not kill it does not always make it stronger: High temperatures in pyriproxyfen treatments produce Aedes aegypti adults with reduced longevity and smaller females. Journal of Asia-Pacific Entomology 23:2,10.1016/j.aspen.2020.04.001,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,eggs were obtained from an ASR (Analytical and Scientific Research Laboratory Brazil) colony which was established from a 1996 collection of Rockefeller strain. interactor1number is the number individuals that survived life stage from an initial n=200 assuming a 50:50 sex ratio,TRUE,01/01/2020
NA,SSA101,mortality,percent not surviving life stage after exposure to extreme high temperatures for 10 mins,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3-L4,NA,42,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived from n=240 tested,TRUE,01/01/2004
NA,SSA101,mortality,percent not surviving life stage after exposure to extreme high temperatures for 10 mins,7.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,222,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3-L4,NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived from n=240 tested,TRUE,01/01/2004
NA,SSA101,mortality,percent not surviving life stage after exposure to extreme high temperatures for 10 mins,90,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3-L4,NA,44,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived from n=240 tested,TRUE,01/01/2004
NA,SSA101,mortality,percent not surviving life stage after exposure to extreme high temperatures for 10 mins,90,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3-L4,NA,45,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived from n=240 tested,TRUE,01/01/2004
NA,SSA101,mortality,percent not surviving life stage after exposure to extreme high temperatures for 10 mins,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3-L4,NA,46,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived from n=240 tested,TRUE,01/01/2004
NA,SSA101,mortality,percent not surviving life stage after exposure to extreme high temperatures for 10 mins,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3-L4,NA,42,Celsius,NA,28,Celsius,repeatedly placed larvae of consecutive generations under this temperature,44.5,Celsius,10,NA,minutes,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived from n=240 tested,TRUE,01/01/2004
NA,SSA101,mortality,percent not surviving life stage after exposure to extreme high temperatures for 10 mins,7.91,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,221,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3-L4,NA,43,Celsius,NA,28,Celsius,repeatedly placed larvae of consecutive generations under this temperature,44.5,Celsius,10,NA,minutes,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived from n=240 tested,TRUE,01/01/2004
NA,SSA101,mortality,percent not surviving life stage after exposure to extreme high temperatures for 10 mins,73.33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,64,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3-L4,NA,44,Celsius,NA,28,Celsius,repeatedly placed larvae of consecutive generations under this temperature,44.5,Celsius,10,NA,minutes,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived from n=240 tested,TRUE,01/01/2004
NA,SSA101,mortality,percent not surviving life stage after exposure to extreme high temperatures for 10 mins,90,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3-L4,NA,45,Celsius,NA,28,Celsius,repeatedly placed larvae of consecutive generations under this temperature,44.5,Celsius,10,NA,minutes,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived from n=240 tested,TRUE,01/01/2004
NA,SSA101,mortality,percent not surviving life stage after exposure to extreme high temperatures for 10 mins,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3-L4,NA,46,Celsius,NA,28,Celsius,repeatedly placed larvae of consecutive generations under this temperature,44.5,Celsius,10,NA,minutes,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived from n=240 tested,TRUE,01/01/2004
NA,SSA101,mortality,percent not surviving life stage,2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2004
NA,SSA101,mortality,percent not surviving life stage,6.63,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2004
NA,SSA101,mortality,percent not surviving life stage,5.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,28,Celsius,NA,28,Celsius,repeatedly placed larvae of consecutive generations under this temperature,44.5,Celsius,10,NA,minutes,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2004
NA,SSA101,mortality,percent not surviving life stage,8.47,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,28,Celsius,NA,28,Celsius,repeatedly placed larvae of consecutive generations under this temperature,44.5,Celsius,10,NA,minutes,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2004
NA,SSA101,mortality,percent not surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,37,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2004
NA,SSA101,mortality,percent not surviving life stage,7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,37,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2004
NA,SSA101,mortality,percent not surviving life stage,6.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,37,Celsius,NA,28,Celsius,repeatedly placed larvae of consecutive generations under this temperature,44.5,Celsius,10,NA,minutes,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2004
NA,SSA101,mortality,percent not surviving life stage,8.47,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,37,Celsius,NA,28,Celsius,repeatedly placed larvae of consecutive generations under this temperature,44.5,Celsius,10,NA,minutes,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2004
PHXX676,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX677,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX678,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX679,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,SSA103,survival,percentage surviving life stage,50.82,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,102,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),male,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived the life stage from an initial number of n=200 at the start of the experiment,TRUE,01/01/2004
NA,SSA103,survival,percentage surviving life stage,49.18,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived the life stage from an initial number of n=200 at the start of the experiment,TRUE,01/01/2004
NA,SSA103,survival,percentage surviving life stage,49.13,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),male,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived the life stage from an initial number of n=200 at the start of the experiment,TRUE,01/01/2004
NA,SSA103,survival,percentage surviving life stage,50.87,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,102,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived the life stage from an initial number of n=200 at the start of the experiment,TRUE,01/01/2004
NA,SSA103,survival,percentage surviving life stage,58.06,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,116,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),male,37,Celsius,NA,28,Celsius,repeatedly placed larvae of consecutive generations under this temperature,44.5,Celsius,10,NA,minutes,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived the life stage from an initial number of n=200 at the start of the experiment,TRUE,01/01/2004
NA,SSA103,survival,percentage surviving life stage,41.94,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,84,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),female,37,Celsius,NA,28,Celsius,repeatedly placed larvae of consecutive generations under this temperature,44.5,Celsius,10,NA,minutes,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived the life stage from an initial number of n=200 at the start of the experiment,TRUE,01/01/2004
NA,SSA103,survival,percentage surviving life stage,57.69,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,115,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),male,37,Celsius,NA,28,Celsius,repeatedly placed larvae of consecutive generations under this temperature,44.5,Celsius,10,NA,minutes,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived the life stage from an initial number of n=200 at the start of the experiment,TRUE,01/01/2004
NA,SSA103,survival,percentage surviving life stage,42.3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,85,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),female,37,Celsius,NA,28,Celsius,repeatedly placed larvae of consecutive generations under this temperature,44.5,Celsius,10,NA,minutes,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,interactor1number is the number of individuals that survived the life stage from an initial number of n=200 at the start of the experiment,TRUE,01/01/2004
NA,SSA104,longevity,mean life stage duration,35.97,days,3.77,3.77,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2004
NA,SSA104,longevity,mean life stage duration,43.74,days,4.66,4.66,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2004
NA,SSA104,longevity,mean life stage duration,37.72,days,4.14,4.14,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2004
NA,SSA104,longevity,mean life stage duration,49.42,days,5.33,5.33,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2004
NA,SSA104,longevity,mean life stage duration,12.97,days,1.26,1.26,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,37,Celsius,NA,28,Celsius,repeatedly placed larvae of consecutive generations under this temperature,44.5,Celsius,10,NA,minutes,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2004
NA,SSA104,longevity,mean life stage duration,18.17,days,18.17,18.17,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,37,Celsius,NA,28,Celsius,repeatedly placed larvae of consecutive generations under this temperature,44.5,Celsius,10,NA,minutes,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2004
NA,SSA104,longevity,mean life stage duration,18.76,days,1.63,1.63,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,37,Celsius,NA,28,Celsius,repeatedly placed larvae of consecutive generations under this temperature,44.5,Celsius,10,NA,minutes,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2004
NA,SSA104,longevity,mean life stage duration,23.1,days,2.8,2.8,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,37,Celsius,NA,28,Celsius,repeatedly placed larvae of consecutive generations under this temperature,44.5,Celsius,10,NA,minutes,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2004
NA,SSA105,infection rate,replicate level percent of subjects infected with Chikungunya virus after oral infection (measured 8 days after exposure),52.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,28,Celsius,NA,28,Celsius,repeatedly placed larvae of consecutive generations under this temperature,44.5,Celsius,10,NA,minutes,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2004
NA,SSA105,infection rate,replicate level percent of subjects infected with Chikungunya virus after oral infection (measured 8 days after exposure),60,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,28,Celsius,NA,28,Celsius,repeatedly placed larvae of consecutive generations under this temperature,44.5,Celsius,10,NA,minutes,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2004
NA,SSA105,infection rate,replicate level percent of subjects infected with Chikungunya virus after oral infection (measured 8 days after exposure),68.57,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,28,Celsius,NA,28,Celsius,repeatedly placed larvae of consecutive generations under this temperature,44.5,Celsius,10,NA,minutes,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2004
NA,SSA105,infection rate,replicate level percent of subjects infected with Chikungunya virus after oral infection (measured 8 days after exposure),66.66,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2004
NA,SSA105,infection rate,replicate level percent of subjects infected with Chikungunya virus after oral infection (measured 8 days after exposure),62.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2004
NA,SSA105,infection rate,replicate level percent of subjects infected with Chikungunya virus after oral infection (measured 8 days after exposure),57.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2004
NA,SSA105,infection rate,replicate level percent of subjects infected with Chikungunya virus after oral infection (measured 8 days after exposure),70,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,21,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,28,Celsius,NA,28,Celsius,placed subjects under this temperature during larval stages,36,Celsius,10,NA,minutes,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2004
NA,SSA105,infection rate,replicate level percent of subjects infected with Chikungunya virus after oral infection (measured 8 days after exposure),55,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,28,Celsius,NA,28,Celsius,placed subjects under this temperature during larval stages,36,Celsius,10,NA,minutes,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2004
NA,SSA105,infection rate,replicate level percent of subjects infected with Chikungunya virus after oral infection (measured 8 days after exposure),48.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,28,Celsius,NA,28,Celsius,placed subjects under this temperature during larval stages,36,Celsius,10,NA,minutes,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2004
NA,SSA105,infection rate,replicate level percent of subjects infected with Chikungunya virus after oral infection (measured 8 days after exposure),94.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,28,Celsius,NA,28,Celsius,placed subjects under this temperature during larval stages,39,Celsius,10,NA,minutes,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2004
NA,SSA105,infection rate,replicate level percent of subjects infected with Chikungunya virus after oral infection (measured 8 days after exposure),62.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,28,Celsius,NA,28,Celsius,placed subjects under this temperature during larval stages,39,Celsius,10,NA,minutes,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2004
NA,SSA105,infection rate,replicate level percent of subjects infected with Chikungunya virus after oral infection (measured 8 days after exposure),52.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,28,Celsius,NA,28,Celsius,placed subjects under this temperature during larval stages,39,Celsius,10,NA,minutes,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2004
NA,SSA105,infection rate,replicate level percent of subjects infected with Chikungunya virus after oral infection (measured 8 days after exposure),80,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,28,Celsius,NA,28,Celsius,placed subjects under this temperature during larval stages,42,Celsius,10,NA,minutes,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2004
NA,SSA105,infection rate,replicate level percent of subjects infected with Chikungunya virus after oral infection (measured 8 days after exposure),65,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,28,Celsius,NA,28,Celsius,placed subjects under this temperature during larval stages,42,Celsius,10,NA,minutes,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2004
NA,SSA105,infection rate,replicate level percent of subjects infected with Chikungunya virus after oral infection (measured 8 days after exposure),80,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,28,Celsius,NA,28,Celsius,placed subjects under this temperature during larval stages,44.5,Celsius,10,NA,minutes,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2004
NA,SSA105,infection rate,replicate level percent of subjects infected with Chikungunya virus after oral infection (measured 8 days after exposure),85.71,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,28,Celsius,NA,28,Celsius,placed subjects under this temperature during larval stages,44.5,Celsius,10,NA,minutes,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2004
NA,MUL001,mortality,percentage not surviving life stage,44.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,3,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),1,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,10,Aedes to 20 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 2a,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL001,mortality,percentage not surviving life stage,37.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,3,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),2,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,15,Aedes to 15 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 2a,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL001,mortality,percentage not surviving life stage,39.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,3,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),3,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,20,Aedes to 10 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 2a,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL001,mortality,percentage not surviving life stage,19.3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,3,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),4,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,30,Aedes to 0 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 2a,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL001,mortality,percentage not surviving life stage,70.3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,6,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),1,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,10,Aedes to 20 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 2b,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL001,mortality,percentage not surviving life stage,46.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,6,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),2,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,15,Aedes to 15 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 2b,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL001,mortality,percentage not surviving life stage,63.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,6,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),3,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,20,Aedes to 10 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 2b,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL001,mortality,percentage not surviving life stage,83.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,6,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),4,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,30,Aedes to 0 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 2b,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany. interactor1number is the number of individuals that survived lifestage out of n=30 at the start of the experiment,TRUE,01/01/2018
NA,MUL001,mortality,percentage not surviving life stage,28.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,3,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),1,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,10,Aedes to 20 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 2c,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL001,mortality,percentage not surviving life stage,58.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,3,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),2,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,15,Aedes to 15 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 2c,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL001,mortality,percentage not surviving life stage,36.3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,3,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),3,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,20,Aedes to 10 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 2c,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL001,mortality,percentage not surviving life stage,4.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,3,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),4,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,30,Aedes to 0 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 2c,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL001,mortality,percentage not surviving life stage,9.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,6,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),1,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,10,Aedes to 20 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 2d,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL001,mortality,percentage not surviving life stage,4.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,6,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),2,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,15,Aedes to 15 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 2d,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL001,mortality,percentage not surviving life stage,5.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,6,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),3,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,20,Aedes to 10 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 2d,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL001,mortality,percentage not surviving life stage,6.3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,6,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),4,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,30,Aedes to 0 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 2d,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany. interactor1number is the number of individuals that survived lifestage out of n=30 at the start of the experiment,TRUE,01/01/2018
NA,MUL001,mortality,percentage not surviving life stage,27.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,3,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),1,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,10,Aedes to 20 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 2e,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL001,mortality,percentage not surviving life stage,48.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,3,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),2,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,15,Aedes to 15 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 2e,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL001,mortality,percentage not surviving life stage,55.1,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,3,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),3,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,20,Aedes to 10 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 2e,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL001,mortality,percentage not surviving life stage,10.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,3,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),4,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,30,Aedes to 0 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 2e,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL001,mortality,percentage not surviving life stage,35.3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,6,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),1,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,10,Aedes to 20 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 2f,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL001,mortality,percentage not surviving life stage,44.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,6,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),2,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,15,Aedes to 15 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 2f,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL001,mortality,percentage not surviving life stage,37.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,6,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),3,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,20,Aedes to 10 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 2f,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL001,mortality,percentage not surviving life stage,13.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,6,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),4,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,30,Aedes to 0 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 2f,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany. interactor1number is the number of individuals that survived lifestage out of n=30 at the start of the experiment,TRUE,01/01/2018
PHXX680,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX681,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX682,NA,development time,individual-level duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX683,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX684,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX685,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX686,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX687,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX688,NA,development time,individual-level duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX689,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX690,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX691,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX692,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX693,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX694,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX695,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX696,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX697,NA,development time,individual-level duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX698,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
PHXX699,NA,development time,individual-level duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval resource concentration,quantity of resource made available during life stage,0.183,mg ml-1,NA,NA,NA,NA,NA,Fort Myers Florida,colony (F16-19),NA,0,decimal,26.616667,-81.833333,Aedes aegypti,Yellow fever mosquito,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Huxley et al. 2022. Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti. Commun. Biol. 5: 66.,10.1038/s42003-022-03030-7,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2022
NA,D1,development time,average duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L1,NA,2,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L1,NA,4,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L1,NA,6,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L1,NA,8,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L1,NA,10,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L1,NA,12,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L1,NA,16,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L1,NA,20,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,1.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L1,NA,24,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,0.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L1,NA,28,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,0.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L1,NA,32,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,0.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L1,NA,36,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,0.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L1,NA,38,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L1,NA,40,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L1,NA,42,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,60,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,108,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L2,NA,6,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,trait value is >60 days,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,60,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,114,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L2,NA,8,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,trait value is >60 days,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,114,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L2,NA,10,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,113,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L2,NA,12,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,8.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,118,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L2,NA,16,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,118,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L2,NA,20,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,1.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L2,NA,24,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,1.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L2,NA,28,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L2,NA,32,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,99,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L2,NA,36,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,90,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L2,NA,38,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,trait value is >5 days,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L3,NA,6,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,trait value set to zero because mortality was complete at this temperature,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L3,NA,8,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,trait value set to zero because mortality was complete at this temperature,TRUE,01/01/1972
NA,MUR001,midgut infection rate,proportion of midguts with ZIKV 7 days post infection,93.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Poza Rica Mexico,colony (F13-F18),NA,0,decimal,20.533333,-97.45,Aedes aegypti,NA,NA,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Murrieta et al. 2021. Impact of extrinsic incubation temperature on natural selection during Zika virus infection of Aedes aegypti and Aedes albopictus. PLoS Pathog 17(11): e1009433,10.1371/journal.ppat.1009433,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2021
NA,MUR001,midgut infection rate,proportion of midguts with ZIKV 7 days post infection,90.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Poza Rica Mexico,colony (F13-F18),NA,0,decimal,20.533333,-97.45,Aedes aegypti,NA,NA,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Murrieta et al. 2021. Impact of extrinsic incubation temperature on natural selection during Zika virus infection of Aedes aegypti and Aedes albopictus. PLoS Pathog 17(11): e1009433,10.1371/journal.ppat.1009433,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2021
NA,MUR001,midgut infection rate,proportion of midguts with ZIKV 7 days post infection,94.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Poza Rica Mexico,colony (F13-F18),NA,0,decimal,20.533333,-97.45,Aedes aegypti,NA,NA,NA,59,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Murrieta et al. 2021. Impact of extrinsic incubation temperature on natural selection during Zika virus infection of Aedes aegypti and Aedes albopictus. PLoS Pathog 17(11): e1009433,10.1371/journal.ppat.1009433,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2021
NA,MUR001,midgut infection rate,proportion of midguts with ZIKV 7 days post infection,52.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Poza Rica Mexico,colony (F13-F18),NA,0,decimal,20.533333,-97.45,Aedes aegypti,NA,NA,NA,72,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Murrieta et al. 2021. Impact of extrinsic incubation temperature on natural selection during Zika virus infection of Aedes aegypti and Aedes albopictus. PLoS Pathog 17(11): e1009433,10.1371/journal.ppat.1009433,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2021
NA,MUR001,midgut infection rate,proportion of midguts with ZIKV 14 days post infection,80.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Poza Rica Mexico,colony (F13-F18),NA,0,decimal,20.533333,-97.45,Aedes aegypti,NA,NA,NA,108,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Murrieta et al. 2021. Impact of extrinsic incubation temperature on natural selection during Zika virus infection of Aedes aegypti and Aedes albopictus. PLoS Pathog 17(11): e1009433,10.1371/journal.ppat.1009433,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2021
NA,MUR001,midgut infection rate,proportion of midguts with ZIKV 14 days post infection,96.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Poza Rica Mexico,colony (F13-F18),NA,0,decimal,20.533333,-97.45,Aedes aegypti,NA,NA,NA,97,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Murrieta et al. 2021. Impact of extrinsic incubation temperature on natural selection during Zika virus infection of Aedes aegypti and Aedes albopictus. PLoS Pathog 17(11): e1009433,10.1371/journal.ppat.1009433,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2021
NA,MUR001,midgut infection rate,proportion of midguts with ZIKV 14 days post infection,93.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Poza Rica Mexico,colony (F13-F18),NA,0,decimal,20.533333,-97.45,Aedes aegypti,NA,NA,NA,59,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Murrieta et al. 2021. Impact of extrinsic incubation temperature on natural selection during Zika virus infection of Aedes aegypti and Aedes albopictus. PLoS Pathog 17(11): e1009433,10.1371/journal.ppat.1009433,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2021
NA,MUR001,midgut infection rate,proportion of midguts with ZIKV 14 days post infection,55.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Poza Rica Mexico,colony (F13-F18),NA,0,decimal,20.533333,-97.45,Aedes aegypti,NA,NA,NA,86,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Murrieta et al. 2021. Impact of extrinsic incubation temperature on natural selection during Zika virus infection of Aedes aegypti and Aedes albopictus. PLoS Pathog 17(11): e1009433,10.1371/journal.ppat.1009433,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2021
NA,MUR001,midgut infection rate,proportion of midguts with ZIKV 7 days post infection,97.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,82,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Murrieta et al. 2021. Impact of extrinsic incubation temperature on natural selection during Zika virus infection of Aedes aegypti and Aedes albopictus. PLoS Pathog 17(11): e1009433,10.1371/journal.ppat.1009433,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2021
NA,MUR001,midgut infection rate,proportion of midguts with ZIKV 7 days post infection,96.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Murrieta et al. 2021. Impact of extrinsic incubation temperature on natural selection during Zika virus infection of Aedes aegypti and Aedes albopictus. PLoS Pathog 17(11): e1009433,10.1371/journal.ppat.1009433,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2021
NA,MUR001,midgut infection rate,proportion of midguts with ZIKV 7 days post infection,94.1,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,34,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Murrieta et al. 2021. Impact of extrinsic incubation temperature on natural selection during Zika virus infection of Aedes aegypti and Aedes albopictus. PLoS Pathog 17(11): e1009433,10.1371/journal.ppat.1009433,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2021
NA,MUR001,midgut infection rate,proportion of midguts with ZIKV 7 days post infection,68.1,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,91,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Murrieta et al. 2021. Impact of extrinsic incubation temperature on natural selection during Zika virus infection of Aedes aegypti and Aedes albopictus. PLoS Pathog 17(11): e1009433,10.1371/journal.ppat.1009433,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2021
NA,MUR001,midgut infection rate,proportion of midguts with ZIKV 14 days post infection,96.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Murrieta et al. 2021. Impact of extrinsic incubation temperature on natural selection during Zika virus infection of Aedes aegypti and Aedes albopictus. PLoS Pathog 17(11): e1009433,10.1371/journal.ppat.1009433,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2021
NA,MUR001,midgut infection rate,proportion of midguts with ZIKV 14 days post infection,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Murrieta et al. 2021. Impact of extrinsic incubation temperature on natural selection during Zika virus infection of Aedes aegypti and Aedes albopictus. PLoS Pathog 17(11): e1009433,10.1371/journal.ppat.1009433,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2021
NA,MUR001,midgut infection rate,proportion of midguts with ZIKV 14 days post infection,96.4,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Murrieta et al. 2021. Impact of extrinsic incubation temperature on natural selection during Zika virus infection of Aedes aegypti and Aedes albopictus. PLoS Pathog 17(11): e1009433,10.1371/journal.ppat.1009433,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2021
NA,MUR001,midgut infection rate,proportion of midguts with ZIKV 14 days post infection,46.1,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,decimal,28,-82,Aedes albopictus,NA,NA,NA,76,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Murrieta et al. 2021. Impact of extrinsic incubation temperature on natural selection during Zika virus infection of Aedes aegypti and Aedes albopictus. PLoS Pathog 17(11): e1009433,10.1371/journal.ppat.1009433,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2021
NA,MUR002,dissemination rate,proportion of legs with ZIKV 7 days post infection,23.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Poza Rica Mexico,colony (F13-F18),NA,0,decimal,20.533333,-97.45,Aedes aegypti,NA,NA,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Murrieta et al. 2021. Impact of extrinsic incubation temperature on natural selection during Zika virus infection of Aedes aegypti and Aedes albopictus. PLoS Pathog 17(11): e1009433,10.1371/journal.ppat.1009433,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2021
NA,MUR002,dissemination rate,proportion of legs with ZIKV 7 days post infection,78.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Poza Rica Mexico,colony (F13-F18),NA,0,decimal,20.533333,-97.45,Aedes aegypti,NA,NA,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Murrieta et al. 2021. Impact of extrinsic incubation temperature on natural selection during Zika virus infection of Aedes aegypti and Aedes albopictus. PLoS Pathog 17(11): e1009433,10.1371/journal.ppat.1009433,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2021
NA,MUR002,dissemination rate,proportion of legs with ZIKV 7 days post infection,93.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Poza Rica Mexico,colony (F13-F18),NA,0,decimal,20.533333,-97.45,Aedes aegypti,NA,NA,NA,59,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Murrieta et al. 2021. Impact of extrinsic incubation temperature on natural selection during Zika virus infection of Aedes aegypti and Aedes albopictus. PLoS Pathog 17(11): e1009433,10.1371/journal.ppat.1009433,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2021
NA,MUR002,dissemination rate,proportion of legs with ZIKV 7 days post infection,48.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Poza Rica Mexico,colony (F13-F18),NA,0,decimal,20.533333,-97.45,Aedes aegypti,NA,NA,NA,72,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Murrieta et al. 2021. Impact of extrinsic incubation temperature on natural selection during Zika virus infection of Aedes aegypti and Aedes albopictus. PLoS Pathog 17(11): e1009433,10.1371/journal.ppat.1009433,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2021
NA,MUR002,dissemination rate,proportion of legs with ZIKV 14 days post infection,73.1,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Poza Rica Mexico,colony (F13-F18),NA,0,decimal,20.533333,-97.45,Aedes aegypti,NA,NA,NA,108,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Murrieta et al. 2021. Impact of extrinsic incubation temperature on natural selection during Zika virus infection of Aedes aegypti and Aedes albopictus. PLoS Pathog 17(11): e1009433,10.1371/journal.ppat.1009433,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2021
NA,MUR002,dissemination rate,proportion of legs with ZIKV 14 days post infection,93.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Poza Rica Mexico,colony (F13-F18),NA,0,decimal,20.533333,-97.45,Aedes aegypti,NA,NA,NA,97,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Murrieta et al. 2021. Impact of extrinsic incubation temperature on natural selection during Zika virus infection of Aedes aegypti and Aedes albopictus. PLoS Pathog 17(11): e1009433,10.1371/journal.ppat.1009433,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2021
NA,MUR002,dissemination rate,proportion of legs with ZIKV 14 days post infection,91.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Poza Rica Mexico,colony (F13-F18),NA,0,decimal,20.533333,-97.45,Aedes aegypti,NA,NA,NA,59,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Murrieta et al. 2021. Impact of extrinsic incubation temperature on natural selection during Zika virus infection of Aedes aegypti and Aedes albopictus. PLoS Pathog 17(11): e1009433,10.1371/journal.ppat.1009433,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2021
NA,MUR002,dissemination rate,proportion of legs with ZIKV 14 days post infection,53.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Poza Rica Mexico,colony (F13-F18),NA,0,decimal,20.533333,-97.45,Aedes aegypti,NA,NA,NA,86,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Murrieta et al. 2021. Impact of extrinsic incubation temperature on natural selection during Zika virus infection of Aedes aegypti and Aedes albopictus. PLoS Pathog 17(11): e1009433,10.1371/journal.ppat.1009433,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2021
NA,MUR002,dissemination rate,proportion of legs with ZIKV 7 days post infection,6.1,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,NA,28,-82,Aedes albopictus,NA,NA,NA,82,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Murrieta et al. 2021. Impact of extrinsic incubation temperature on natural selection during Zika virus infection of Aedes aegypti and Aedes albopictus. PLoS Pathog 17(11): e1009433,10.1371/journal.ppat.1009433,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2021
NA,MUR002,dissemination rate,proportion of legs with ZIKV 7 days post infection,30.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,NA,28,-82,Aedes albopictus,NA,NA,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Murrieta et al. 2021. Impact of extrinsic incubation temperature on natural selection during Zika virus infection of Aedes aegypti and Aedes albopictus. PLoS Pathog 17(11): e1009433,10.1371/journal.ppat.1009433,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2021
NA,MUR002,dissemination rate,proportion of legs with ZIKV 7 days post infection,79.4,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,NA,28,-82,Aedes albopictus,NA,NA,NA,34,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Murrieta et al. 2021. Impact of extrinsic incubation temperature on natural selection during Zika virus infection of Aedes aegypti and Aedes albopictus. PLoS Pathog 17(11): e1009433,10.1371/journal.ppat.1009433,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2021
NA,MUR002,dissemination rate,proportion of legs with ZIKV 7 days post infection,31.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,NA,28,-82,Aedes albopictus,NA,NA,NA,91,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Murrieta et al. 2021. Impact of extrinsic incubation temperature on natural selection during Zika virus infection of Aedes aegypti and Aedes albopictus. PLoS Pathog 17(11): e1009433,10.1371/journal.ppat.1009433,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2021
NA,MUR002,dissemination rate,proportion of legs with ZIKV 14 days post infection,77.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,NA,28,-82,Aedes albopictus,NA,NA,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Murrieta et al. 2021. Impact of extrinsic incubation temperature on natural selection during Zika virus infection of Aedes aegypti and Aedes albopictus. PLoS Pathog 17(11): e1009433,10.1371/journal.ppat.1009433,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2021
NA,MUR002,dissemination rate,proportion of legs with ZIKV 14 days post infection,96.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,NA,28,-82,Aedes albopictus,NA,NA,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Murrieta et al. 2021. Impact of extrinsic incubation temperature on natural selection during Zika virus infection of Aedes aegypti and Aedes albopictus. PLoS Pathog 17(11): e1009433,10.1371/journal.ppat.1009433,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2021
NA,MUR002,dissemination rate,proportion of legs with ZIKV 14 days post infection,92.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,NA,28,-82,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Murrieta et al. 2021. Impact of extrinsic incubation temperature on natural selection during Zika virus infection of Aedes aegypti and Aedes albopictus. PLoS Pathog 17(11): e1009433,10.1371/journal.ppat.1009433,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2021
NA,MUR002,dissemination rate,proportion of legs with ZIKV 14 days post infection,32.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,NA,28,-82,Aedes albopictus,NA,NA,NA,76,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Murrieta et al. 2021. Impact of extrinsic incubation temperature on natural selection during Zika virus infection of Aedes aegypti and Aedes albopictus. PLoS Pathog 17(11): e1009433,10.1371/journal.ppat.1009433,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2021
NA,MUR003,transmission rate,proportion of saliva with ZIKV 7 days post infection,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Poza Rica Mexico,colony (F13-F18),NA,0,decimal,20.533333,-97.45,Aedes aegypti,NA,NA,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Murrieta et al. 2021. Impact of extrinsic incubation temperature on natural selection during Zika virus infection of Aedes aegypti and Aedes albopictus. PLoS Pathog 17(11): e1009433,10.1371/journal.ppat.1009433,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2021
NA,MUR003,transmission rate,proportion of saliva with ZIKV 7 days post infection,14.3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Poza Rica Mexico,colony (F13-F18),NA,0,decimal,20.533333,-97.45,Aedes aegypti,NA,NA,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Murrieta et al. 2021. Impact of extrinsic incubation temperature on natural selection during Zika virus infection of Aedes aegypti and Aedes albopictus. PLoS Pathog 17(11): e1009433,10.1371/journal.ppat.1009433,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2021
NA,MUR003,transmission rate,proportion of saliva with ZIKV 7 days post infection,30.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Poza Rica Mexico,colony (F13-F18),NA,0,decimal,20.533333,-97.45,Aedes aegypti,NA,NA,NA,59,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Murrieta et al. 2021. Impact of extrinsic incubation temperature on natural selection during Zika virus infection of Aedes aegypti and Aedes albopictus. PLoS Pathog 17(11): e1009433,10.1371/journal.ppat.1009433,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2021
NA,MUR003,transmission rate,proportion of saliva with ZIKV 7 days post infection,19.4,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Poza Rica Mexico,colony (F13-F18),NA,0,decimal,20.533333,-97.45,Aedes aegypti,NA,NA,NA,72,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Murrieta et al. 2021. Impact of extrinsic incubation temperature on natural selection during Zika virus infection of Aedes aegypti and Aedes albopictus. PLoS Pathog 17(11): e1009433,10.1371/journal.ppat.1009433,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2021
NA,MUR003,transmission rate,proportion of saliva with ZIKV 14 days post infection,14.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Poza Rica Mexico,colony (F13-F18),NA,0,decimal,20.533333,-97.45,Aedes aegypti,NA,NA,NA,108,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Murrieta et al. 2021. Impact of extrinsic incubation temperature on natural selection during Zika virus infection of Aedes aegypti and Aedes albopictus. PLoS Pathog 17(11): e1009433,10.1371/journal.ppat.1009433,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2021
NA,MUR003,transmission rate,proportion of saliva with ZIKV 14 days post infection,63.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Poza Rica Mexico,colony (F13-F18),NA,0,decimal,20.533333,-97.45,Aedes aegypti,NA,NA,NA,97,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Murrieta et al. 2021. Impact of extrinsic incubation temperature on natural selection during Zika virus infection of Aedes aegypti and Aedes albopictus. PLoS Pathog 17(11): e1009433,10.1371/journal.ppat.1009433,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2021
NA,MUR003,transmission rate,proportion of saliva with ZIKV 14 days post infection,40.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Poza Rica Mexico,colony (F13-F18),NA,0,decimal,20.533333,-97.45,Aedes aegypti,NA,NA,NA,59,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Murrieta et al. 2021. Impact of extrinsic incubation temperature on natural selection during Zika virus infection of Aedes aegypti and Aedes albopictus. PLoS Pathog 17(11): e1009433,10.1371/journal.ppat.1009433,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2021
NA,MUR003,transmission rate,proportion of saliva with ZIKV 14 days post infection,24.4,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Poza Rica Mexico,colony (F13-F18),NA,0,decimal,20.533333,-97.45,Aedes aegypti,NA,NA,NA,86,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Murrieta et al. 2021. Impact of extrinsic incubation temperature on natural selection during Zika virus infection of Aedes aegypti and Aedes albopictus. PLoS Pathog 17(11): e1009433,10.1371/journal.ppat.1009433,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2021
NA,MUR003,transmission rate,proportion of saliva with ZIKV 7 days post infection,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,NA,28,-82,Aedes albopictus,NA,NA,NA,82,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Murrieta et al. 2021. Impact of extrinsic incubation temperature on natural selection during Zika virus infection of Aedes aegypti and Aedes albopictus. PLoS Pathog 17(11): e1009433,10.1371/journal.ppat.1009433,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2021
NA,MUR003,transmission rate,proportion of saliva with ZIKV 7 days post infection,9.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,NA,28,-82,Aedes albopictus,NA,NA,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Murrieta et al. 2021. Impact of extrinsic incubation temperature on natural selection during Zika virus infection of Aedes aegypti and Aedes albopictus. PLoS Pathog 17(11): e1009433,10.1371/journal.ppat.1009433,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2021
NA,MUR003,transmission rate,proportion of saliva with ZIKV 7 days post infection,23.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,NA,28,-82,Aedes albopictus,NA,NA,NA,34,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Murrieta et al. 2021. Impact of extrinsic incubation temperature on natural selection during Zika virus infection of Aedes aegypti and Aedes albopictus. PLoS Pathog 17(11): e1009433,10.1371/journal.ppat.1009433,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2021
NA,MUR003,transmission rate,proportion of saliva with ZIKV 7 days post infection,3.3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,NA,28,-82,Aedes albopictus,NA,NA,NA,91,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Murrieta et al. 2021. Impact of extrinsic incubation temperature on natural selection during Zika virus infection of Aedes aegypti and Aedes albopictus. PLoS Pathog 17(11): e1009433,10.1371/journal.ppat.1009433,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2021
NA,MUR003,transmission rate,proportion of saliva with ZIKV 14 days post infection,11.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,NA,28,-82,Aedes albopictus,NA,NA,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Murrieta et al. 2021. Impact of extrinsic incubation temperature on natural selection during Zika virus infection of Aedes aegypti and Aedes albopictus. PLoS Pathog 17(11): e1009433,10.1371/journal.ppat.1009433,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2021
NA,MUR003,transmission rate,proportion of saliva with ZIKV 14 days post infection,53.1,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,NA,28,-82,Aedes albopictus,NA,NA,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Murrieta et al. 2021. Impact of extrinsic incubation temperature on natural selection during Zika virus infection of Aedes aegypti and Aedes albopictus. PLoS Pathog 17(11): e1009433,10.1371/journal.ppat.1009433,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2021
NA,MUR003,transmission rate,proportion of saliva with ZIKV 14 days post infection,46.4,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,NA,28,-82,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Murrieta et al. 2021. Impact of extrinsic incubation temperature on natural selection during Zika virus infection of Aedes aegypti and Aedes albopictus. PLoS Pathog 17(11): e1009433,10.1371/journal.ppat.1009433,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2021
NA,MUR003,transmission rate,proportion of saliva with ZIKV 14 days post infection,15.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Florida USA,colony,NA,0,NA,28,-82,Aedes albopictus,NA,NA,NA,76,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table s3,Murrieta et al. 2021. Impact of extrinsic incubation temperature on natural selection during Zika virus infection of Aedes aegypti and Aedes albopictus. PLoS Pathog 17(11): e1009433,10.1371/journal.ppat.1009433,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2021
NA,MUT001,survival,survival to adulthood (percentage of initial number of larvae interactor1number),82.1,percent,1.1,1.1,not reported,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,insecticide exposure,concentration of malathion exposed to,0,mg litre-1,NA,NA,NA,NA,NA,Jacksonville Florida USA,field,NA,0,decimal,30.336944,-81.661389,Aedes albopictus,NA,NA,NA,493,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Muturi et al. 2011. Effect of Temperature and Insecticide Stress on Life-History Traits of Culex restuans and Aedes albopictus (Diptera: Culicidae). J. Med. Entomol. 48:2,10.1603/ME10017,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1number is the number of individuals that survived from an initial n=600 at the start of the experiment,TRUE,01/01/2011
NA,MUT001,survival,survival to adulthood (percentage of initial number of larvae interactor1number),84,percent,3.4,3.6,not reported,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,insecticide exposure,concentration of malathion exposed to,0.003,mg litre-1,NA,NA,NA,NA,NA,Jacksonville Florida USA,field,NA,0,decimal,30.336944,-81.661389,Aedes albopictus,NA,NA,NA,590,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Muturi et al. 2011. Effect of Temperature and Insecticide Stress on Life-History Traits of Culex restuans and Aedes albopictus (Diptera: Culicidae). J. Med. Entomol. 48:2,10.1603/ME10017,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2011
NA,MUT001,survival,survival to adulthood (percentage of initial number of larvae interactor1number),89.2,percent,4.5,4.1,not reported,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,insecticide exposure,concentration of malathion exposed to,0.014,mg litre-1,NA,NA,NA,NA,NA,Jacksonville Florida USA,field,NA,0,decimal,30.336944,-81.661389,Aedes albopictus,NA,NA,NA,518,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Muturi et al. 2011. Effect of Temperature and Insecticide Stress on Life-History Traits of Culex restuans and Aedes albopictus (Diptera: Culicidae). J. Med. Entomol. 48:2,10.1603/ME10017,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2011
NA,MUT001,survival,survival to adulthood (percentage of initial number of larvae interactor1number),84.8,percent,4,4.2,not reported,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,insecticide exposure,concentration of malathion exposed to,0.028,mg litre-1,NA,NA,NA,NA,NA,Jacksonville Florida USA,field,NA,0,decimal,30.336944,-81.661389,Aedes albopictus,NA,NA,NA,600,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Muturi et al. 2011. Effect of Temperature and Insecticide Stress on Life-History Traits of Culex restuans and Aedes albopictus (Diptera: Culicidae). J. Med. Entomol. 48:2,10.1603/ME10017,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2011
NA,MUT001,survival,survival to adulthood (percentage of initial number of larvae interactor1number),98.3,percent,2.1,2.1,not reported,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,insecticide exposure,concentration of malathion exposed to,0,mg litre-1,NA,NA,NA,NA,NA,Jacksonville Florida USA,field,NA,0,decimal,30.336944,-81.661389,Aedes albopictus,NA,NA,NA,590,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Muturi et al. 2011. Effect of Temperature and Insecticide Stress on Life-History Traits of Culex restuans and Aedes albopictus (Diptera: Culicidae). J. Med. Entomol. 48:2,10.1603/ME10017,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1number is the number of individuals that survived from an initial n=600 at the start of the experiment,TRUE,01/01/2011
NA,MUT001,survival,survival to adulthood (percentage of initial number of larvae interactor1number),84.2,percent,2.8,3,not reported,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,insecticide exposure,concentration of malathion exposed to,0.003,mg litre-1,NA,NA,NA,NA,NA,Jacksonville Florida USA,field,NA,0,decimal,30.336944,-81.661389,Aedes albopictus,NA,NA,NA,600,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Muturi et al. 2011. Effect of Temperature and Insecticide Stress on Life-History Traits of Culex restuans and Aedes albopictus (Diptera: Culicidae). J. Med. Entomol. 48:2,10.1603/ME10017,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2011
NA,MUT001,survival,survival to adulthood (percentage of initial number of larvae interactor1number),89.4,percent,2,1.9,not reported,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,insecticide exposure,concentration of malathion exposed to,0.014,mg litre-1,NA,NA,NA,NA,NA,Jacksonville Florida USA,field,NA,0,decimal,30.336944,-81.661389,Aedes albopictus,NA,NA,NA,600,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Muturi et al. 2011. Effect of Temperature and Insecticide Stress on Life-History Traits of Culex restuans and Aedes albopictus (Diptera: Culicidae). J. Med. Entomol. 48:2,10.1603/ME10017,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2011
NA,MUT001,survival,survival to adulthood (percentage of initial number of larvae interactor1number),65.6,percent,9.2,9.6,not reported,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,insecticide exposure,concentration of malathion exposed to,0.028,mg litre-1,NA,NA,NA,NA,NA,Jacksonville Florida USA,field,NA,0,decimal,30.336944,-81.661389,Aedes albopictus,NA,NA,NA,600,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Muturi et al. 2011. Effect of Temperature and Insecticide Stress on Life-History Traits of Culex restuans and Aedes albopictus (Diptera: Culicidae). J. Med. Entomol. 48:2,10.1603/ME10017,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2011
NA,MUT001,survival,survival to adulthood (percentage of initial number of larvae interactor1number),86.4,percent,0.8,0.8,not reported,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,insecticide exposure,concentration of malathion exposed to,0,mg litre-1,NA,NA,NA,NA,NA,Jacksonville Florida USA,field,NA,0,decimal,30.336944,-81.661389,Aedes albopictus,NA,NA,NA,518,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Muturi et al. 2011. Effect of Temperature and Insecticide Stress on Life-History Traits of Culex restuans and Aedes albopictus (Diptera: Culicidae). J. Med. Entomol. 48:2,10.1603/ME10017,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1number is the number of individuals that survived from an initial n=600 at the start of the experiment,TRUE,01/01/2011
NA,MUT001,survival,survival to adulthood (percentage of initial number of larvae interactor1number),92.8,percent,3.9,4.1,not reported,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,insecticide exposure,concentration of malathion exposed to,0.003,mg litre-1,NA,NA,NA,NA,NA,Jacksonville Florida USA,field,NA,0,decimal,30.336944,-81.661389,Aedes albopictus,NA,NA,NA,600,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Muturi et al. 2011. Effect of Temperature and Insecticide Stress on Life-History Traits of Culex restuans and Aedes albopictus (Diptera: Culicidae). J. Med. Entomol. 48:2,10.1603/ME10017,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2011
NA,MUT001,survival,survival to adulthood (percentage of initial number of larvae interactor1number),87.5,percent,3,3.2,not reported,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,insecticide exposure,concentration of malathion exposed to,0.014,mg litre-1,NA,NA,NA,NA,NA,Jacksonville Florida USA,field,NA,0,decimal,30.336944,-81.661389,Aedes albopictus,NA,NA,NA,600,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Muturi et al. 2011. Effect of Temperature and Insecticide Stress on Life-History Traits of Culex restuans and Aedes albopictus (Diptera: Culicidae). J. Med. Entomol. 48:2,10.1603/ME10017,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2011
NA,MUT001,survival,survival to adulthood (percentage of initial number of larvae interactor1number),71.5,percent,6.7,6.9,not reported,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,insecticide exposure,concentration of malathion exposed to,0.028,mg litre-1,NA,NA,NA,NA,NA,Jacksonville Florida USA,field,NA,0,decimal,30.336944,-81.661389,Aedes albopictus,NA,NA,NA,600,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Muturi et al. 2011. Effect of Temperature and Insecticide Stress on Life-History Traits of Culex restuans and Aedes albopictus (Diptera: Culicidae). J. Med. Entomol. 48:2,10.1603/ME10017,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2011
NA,MUT002,longevity,mean duration of life stage,23.82,day,1.52,1.52,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Jacksonville Florida USA,field,NA,0,decimal,30.336944,-81.661389,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Muturi et al. 2011. Effect of Temperature and Insecticide Stress on Life-History Traits of Culex restuans and Aedes albopictus (Diptera: Culicidae). J. Med. Entomol. 48:2,10.1603/ME10017,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2011
NA,MUT002,longevity,mean duration of life stage,26.21,day,2.54,2.54,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Jacksonville Florida USA,field,NA,0,decimal,30.336944,-81.661389,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Muturi et al. 2011. Effect of Temperature and Insecticide Stress on Life-History Traits of Culex restuans and Aedes albopictus (Diptera: Culicidae). J. Med. Entomol. 48:2,10.1603/ME10017,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2011
NA,MUT002,longevity,mean duration of life stage,31.11,day,1.74,1.74,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Jacksonville Florida USA,field,NA,0,decimal,30.336944,-81.661389,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Muturi et al. 2011. Effect of Temperature and Insecticide Stress on Life-History Traits of Culex restuans and Aedes albopictus (Diptera: Culicidae). J. Med. Entomol. 48:2,10.1603/ME10017,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2011
NA,D1,development time,average duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,91,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L3,NA,10,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,97,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L3,NA,12,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,10.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,108,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L3,NA,16,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,MUT004,weight,adult dried body weight,3.33,mg,0.1,0.1,not reported,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Jacksonville Florida USA,field,NA,0,decimal,30.336944,-81.661389,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Muturi et al. 2011. Effect of Temperature and Insecticide Stress on Life-History Traits of Culex restuans and Aedes albopictus (Diptera: Culicidae). J. Med. Entomol. 48:2,10.1603/ME10017,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2011
NA,MUT004,weight,adult dried body weight,4.09,mg,0.35,0.35,not reported,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Jacksonville Florida USA,field,NA,0,decimal,30.336944,-81.661389,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Muturi et al. 2011. Effect of Temperature and Insecticide Stress on Life-History Traits of Culex restuans and Aedes albopictus (Diptera: Culicidae). J. Med. Entomol. 48:2,10.1603/ME10017,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2011
NA,MUT004,weight,adult dried body weight,3.37,mg,0.11,0.11,not reported,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Jacksonville Florida USA,field,NA,0,decimal,30.336944,-81.661389,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Muturi et al. 2011. Effect of Temperature and Insecticide Stress on Life-History Traits of Culex restuans and Aedes albopictus (Diptera: Culicidae). J. Med. Entomol. 48:2,10.1603/ME10017,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2011
NA,PHT01,survival,percentage of eggs hatching,79.75,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,2823,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=3540 at the start of the experiment,TRUE,01/01/2017
NA,PHT01,survival,percentage of eggs hatching,82.26,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,3718,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=4520 at the start of the experiment,TRUE,01/01/2017
NA,PHT01,survival,percentage of eggs hatching,48.83,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,2727,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=5585 at the start of the experiment,TRUE,01/01/2017
NA,PHT01,survival,percentage of eggs hatching,81.33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,1163,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=1430 at the start of the experiment,TRUE,01/01/2017
NA,PHT01,survival,percentage of eggs hatching,85.87,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,1331,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=1550 at the start of the experiment,TRUE,01/01/2017
NA,PHT01,survival,percentage of eggs hatching,69.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,1780,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=2550 at the start of the experiment,TRUE,01/01/2017
NA,PHT01,survival,percentage of eggs hatching,82.94,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,987,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=1190 at the start of the experiment,TRUE,01/01/2017
NA,PHT01,survival,percentage of eggs hatching,86.32,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,1256,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=1455 at the start of the experiment,TRUE,01/01/2017
NA,PHT01,survival,percentage of eggs hatching,70.87,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,1180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=1665 at the start of the experiment,TRUE,01/01/2017
NA,PHT02,longevity,median duration of life stage,22,days,0.54,0.54,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2017
NA,PHT02,longevity,median duration of life stage,12,days,0.48,0.48,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2017
NA,PHT02,longevity,median duration of life stage,8,days,0.33,0.33,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2017
NA,PHT02,longevity,median duration of life stage,27,days,0.99,0.99,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2017
NA,PHT02,longevity,median duration of life stage,13,days,0.85,0.85,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2017
NA,PHT02,longevity,median duration of life stage,8,days,1.12,1.12,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2017
NA,PHT02,longevity,median duration of life stage,20,days,0.73,0.73,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2017
NA,PHT02,longevity,median duration of life stage,15,days,0.51,0.51,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2017
NA,PHT02,longevity,median duration of life stage,6,days,0.35,0.35,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2017
NA,PHT02,longevity,median duration of life stage,22,days,0.58,0.58,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2017
NA,PHT02,longevity,median duration of life stage,19,days,0.52,0.52,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2017
NA,PHT02,longevity,median duration of life stage,8,days,0.57,0.57,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2017
NA,PHT02,longevity,median duration of life stage,16,days,0.37,0.37,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2017
NA,PHT02,longevity,median duration of life stage,11,days,0.29,0.29,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2017
NA,PHT02,longevity,median duration of life stage,5,days,0.83,0.83,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2017
NA,PHT02,longevity,median duration of life stage,18,days,2.09,2.09,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2017
NA,PHT02,longevity,median duration of life stage,13,days,0.68,0.68,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2017
NA,PHT02,longevity,median duration of life stage,9,days,0.37,0.37,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2017
NA,PHT03,survival,percentage surviving life stage,47.99,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg to L1,NA,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT03,survival,percentage surviving life stage,43.94,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to L4,NA,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT03,survival,percentage surviving life stage,34.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4 to pupal,NA,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT03,survival,percentage surviving life stage,23.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal to adult,NA,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT03,survival,percentage surviving life stage,69.76,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg to L1,NA,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT03,survival,percentage surviving life stage,62.06,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to L4,NA,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT03,survival,percentage surviving life stage,41.82,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4 to pupal,NA,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT03,survival,percentage surviving life stage,24.86,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal to adult,NA,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT03,survival,percentage surviving life stage,71.69,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg to L1,NA,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT03,survival,percentage surviving life stage,63.4,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,63,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to L4,NA,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT03,survival,percentage surviving life stage,46.83,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,79,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4 to pupal,NA,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT03,survival,percentage surviving life stage,31.41,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,74,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal to adult,NA,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT03,survival,percentage surviving life stage,82.68,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg to L1,NA,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT03,survival,percentage surviving life stage,67.45,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to L4,NA,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT03,survival,percentage surviving life stage,60.32,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4 to pupal,NA,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT03,survival,percentage surviving life stage,51.07,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal to adult,NA,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT03,survival,percentage surviving life stage,83.45,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg to L1,NA,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT03,survival,percentage surviving life stage,78.63,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,79,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to L4,NA,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT03,survival,percentage surviving life stage,69.38,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4 to pupal,NA,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT03,survival,percentage surviving life stage,51.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal to adult,NA,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT03,survival,percentage surviving life stage,86.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg to L1,NA,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT03,survival,percentage surviving life stage,84,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to L4,NA,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT03,survival,percentage surviving life stage,79.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4 to pupal,NA,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT03,survival,percentage surviving life stage,68,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal to adult,NA,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT03,survival,percentage surviving life stage,76.34,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg to L1,NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT03,survival,percentage surviving life stage,74.1,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,74,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to L4,NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT03,survival,percentage surviving life stage,70.35,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4 to pupal,NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT03,survival,percentage surviving life stage,64.93,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal to adult,NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT03,survival,percentage surviving life stage,79.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg to L1,NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT03,survival,percentage surviving life stage,79.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to L4,NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT03,survival,percentage surviving life stage,76.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4 to pupal,NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT03,survival,percentage surviving life stage,68.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal to adult,NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT03,survival,percentage surviving life stage,82.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg to L1,NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT03,survival,percentage surviving life stage,82.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to L4,NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT03,survival,percentage surviving life stage,80.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4 to pupal,NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT03,survival,percentage surviving life stage,74.4,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal to adult,NA,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,D1,development time,average duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,112,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L3,NA,20,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,116,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L3,NA,24,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,2.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,116,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L3,NA,28,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,1.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,114,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L3,NA,32,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,1.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L3,NA,36,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L4,NA,6,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,trait value set to zero because mortality was complete at this temperature,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L4,NA,8,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,trait value set to zero because mortality was complete at this temperature,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,73,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L4,NA,10,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,78,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L4,NA,12,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,92,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L4,NA,16,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,104,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L4,NA,20,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,108,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L4,NA,24,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,2.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,107,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L4,NA,28,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,104,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L4,NA,32,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,49,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L4,NA,36,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,47,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,pupal,NA,10,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,54,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,pupal,NA,12,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,73,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,pupal,NA,16,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,92,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,pupal,NA,20,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,pupal,NA,24,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,91,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,pupal,NA,28,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,84,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,pupal,NA,32,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,pupal,NA,36,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,juvenile (L1 to adult),NA,6,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,trait value set to zero because mortality was complete at this temperature,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,juvenile (L1 to adult),NA,8,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,trait value set to zero because mortality was complete at this temperature,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,61,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,37,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,juvenile (L1 to adult),NA,10,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,52,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,46,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,juvenile (L1 to adult),NA,12,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,66,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,juvenile (L1 to adult),NA,16,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,86,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,juvenile (L1 to adult),NA,20,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,93,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,juvenile (L1 to adult),NA,24,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,86,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,juvenile (L1 to adult),NA,28,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,76,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,juvenile (L1 to adult),NA,32,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,21,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,juvenile (L1 to adult),NA,36,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,juvenile (L1 to adult),NA,38,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,trait value set to zero because mortality was complete at this temperature,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L3,NA,38,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,trait value set to zero because mortality was complete at this temperature,TRUE,01/01/1972
NA,D1,development time,average duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Columbus Ohio USA,colony (Alabama strain),NA,0,decimal,32.89048674,-86.7838126,Aedes triseriatus,NA,whole,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,L4,NA,38,Celsius,incubator,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Jalil 1972. Effect of temperature on larval growth of Aedes triseriatus. Journal of Economic Entomology 65:2,10.1093/jee/65.2.625,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,trait value set to zero because mortality was complete at this temperature,TRUE,01/01/1972
NA,JIA005,development time,median duration of life stage,23.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guangzhou China,colony (F20),NA,0,decimal,23.116667,113.266667,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupal,NA,23,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Jian et al. 2023. Effects of constant temperature and daily fluctuating temperature on the transovarial transmission and life cycle of Aedes albopictus infected with Zika virus. Front. Microbiol. 13:1075362.,10.3389/fmicb.2022.1075362,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2023
NA,JIA005,development time,median duration of life stage,7.9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Guangzhou China,colony (F20),NA,0,decimal,23.116667,113.266667,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupal,NA,31,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Jian et al. 2023. Effects of constant temperature and daily fluctuating temperature on the transovarial transmission and life cycle of Aedes albopictus infected with Zika virus. Front. Microbiol. 13:1075362.,10.3389/fmicb.2022.1075362,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2023
NA,PHX5,development time,mean duration of life stage,39,days,6.27,6.27,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,juvenile (L1 to adult),female,14,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,larval mortality was 100% so larvae were hatched and maintained at 26 C and then transferred to this temperature as L2s.,TRUE,01/01/1996
NA,PHX5,development time,mean duration of life stage,24,days,2.83,2.83,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,juvenile (L1 to adult),female,18,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1996
NA,PHX5,development time,mean duration of life stage,10.3,days,0.76,0.76,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,juvenile (L1 to adult),female,22,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1996
NA,PHX5,development time,mean duration of life stage,6.3,days,0.71,0.71,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,juvenile (L1 to adult),female,26,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1996
NA,PHX5,development time,mean duration of life stage,5,days,0.36,0.36,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,juvenile (L1 to adult),female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1996
NA,PHX5,development time,mean duration of life stage,5.5,days,0.35,0.35,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,juvenile (L1 to adult),female,33.5,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1996
NA,PHX5,development time,mean duration of life stage,4,days,0.49,0.49,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,juvenile (L1 to adult),female,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the duration to the pupal stage - adults did not emerge at this temperature,TRUE,01/01/1996
NA,PHX5,development time,mean duration of life stage,26,days,1.81,1.81,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,fluctuating temperature range,temperatures fluctuated between 16 and 12 degrees Celsius,NA,Celsius,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,juvenile (L1 to adult),female,NA,NA,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1996
NA,PHX5,development time,mean duration of life stage,18,days,2.62,2.62,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,fluctuating temperature range,temperatures fluctuated between 22 and 14 degrees Celsius,NA,Celsius,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,juvenile (L1 to adult),female,NA,NA,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1996
NA,PHX5,development time,mean duration of life stage,9.3,days,0.83,0.83,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,fluctuating temperature range,temperatures fluctuated between 26 and 18 degrees Celsius,NA,Celsius,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,juvenile (L1 to adult),female,NA,NA,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1996
NA,PHX5,development time,mean duration of life stage,7.1,days,0.43,0.43,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,fluctuating temperature range,temperatures fluctuated between 30 and 22 degrees Celsius,NA,Celsius,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,juvenile (L1 to adult),female,NA,NA,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1996
NA,PHX5,development time,mean duration of life stage,5.2,days,0.41,0.41,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,fluctuating temperature range,temperatures fluctuated between 33 and 27 degrees Celsius,NA,Celsius,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,juvenile (L1 to adult),female,NA,NA,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1996
NA,PHX5,development time,mean duration of life stage,29,days,2.71,2.71,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,juvenile (L1 to adult),male,14,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,larval mortality was 100% so larvae were hatched and maintained at 26 C and then transferred to this temperature as L2s.,TRUE,01/01/1996
NA,PHX5,development time,mean duration of life stage,21,days,2.28,2.28,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,juvenile (L1 to adult),male,18,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1996
NA,PHX5,development time,mean duration of life stage,7.4,days,0.75,0.75,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,juvenile (L1 to adult),male,22,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1996
NA,PHX5,development time,mean duration of life stage,5.1,days,0.36,0.36,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,juvenile (L1 to adult),male,26,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1996
NA,PHX5,development time,mean duration of life stage,4.6,days,0.42,0.42,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,juvenile (L1 to adult),male,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1996
NA,PHX5,development time,mean duration of life stage,4.1,days,0.47,0.47,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,juvenile (L1 to adult),male,33.5,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1996
NA,PHX5,development time,mean duration of life stage,4,days,0.68,0.68,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,juvenile (L1 to adult),male,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,trait value is the duration to the pupal stage - adults did not emerge at this temperature,TRUE,01/01/1996
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),92.44,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,1,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),85.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,2,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),80.87,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,3,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),74.08,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,4,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),65.02,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,5,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),58.23,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,6,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),49.67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,7,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),39.1,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,8,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),33.82,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,9,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),25.02,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,10,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),8.65,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,11,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),5.89,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,12,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,13,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),92.95,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,1,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),87.16,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,2,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),83.14,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,3,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),78.36,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,4,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),69.81,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,5,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),60.25,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,6,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),55.22,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,7,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),49.94,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,8,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),41.63,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,9,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),36.85,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,10,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),29.81,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,11,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),19.74,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,12,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),12.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,13,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),0.62,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,14,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),97.73,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,1,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),96.99,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,2,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),93.47,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,3,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),90.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,4,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),86.18,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,5,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),86.44,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,6,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),81.41,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,7,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),72.35,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,8,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),67.32,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,9,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),64.31,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,10,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),59.53,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,11,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),49.21,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,12,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),45.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,13,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),37.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,14,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),35.39,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,15,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),30.36,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,16,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),21.05,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,17,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),14.51,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,18,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),7.46,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,19,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),4.95,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,20,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,21,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),98.74,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,1,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),98.25,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,2,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),95.48,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,3,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),93.98,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,4,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),89.71,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,5,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),83.92,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,6,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),80.41,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,7,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),75.63,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,8,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),73.12,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,9,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),69.1,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,10,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),65.83,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,11,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),56.77,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,12,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),48.97,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,13,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),47.47,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,14,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),38.66,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,15,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),35.65,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,16,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),33.64,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,17,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),28.11,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,18,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),22.07,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,19,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),20.06,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,20,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),15.79,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,21,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),9.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,22,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),1.45,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,23,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,24,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,1,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,2,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,3,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,4,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),98.52,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,5,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),98.53,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,6,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),97.28,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,7,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),97.54,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,8,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),96.29,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,9,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),91.52,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,10,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),90.26,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,11,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),88.01,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,12,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),87.51,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,13,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),87.01,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,14,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),79.97,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,15,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),73.43,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,16,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),70.16,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,17,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),69.42,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,18,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),67.66,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,19,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),62.13,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,20,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),57.86,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,21,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),50.56,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,22,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),46.54,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,23,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),44.53,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,24,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),41.27,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,25,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),32.71,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,26,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),30.96,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,27,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),29.71,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,28,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),24.68,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,29,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),16.88,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,30,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,1,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,2,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,3,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,4,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,5,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,6,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),98.54,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,7,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),99.05,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,8,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),98.31,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,9,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),96.05,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,10,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),92.78,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,11,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),92.04,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,12,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),91.04,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,13,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),90.79,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,14,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),86.27,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,15,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),80.23,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,16,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),75.45,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,17,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),75.97,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,18,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),71.95,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,19,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),70.44,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,20,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),64.15,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,21,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),62.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,22,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),58.63,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,23,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),53.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,24,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),50.34,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,25,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),48.58,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,26,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),42.54,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,27,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),36.26,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,28,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),32.99,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,29,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),26.95,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,30,day,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),94.08,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,1,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),82.45,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,2,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),74.29,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,3,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),65.92,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,4,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),58.16,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,5,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),44.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,6,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),31.22,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,7,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),15.51,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,8,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),3.47,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,9,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),1.02,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,10,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),1.22,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,11,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),1.43,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,12,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),1.02,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,13,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),0.41,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,14,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,15,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),95.1,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,1,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),87.96,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,2,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),82.65,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,3,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),78.98,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,4,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),69.59,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,5,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),63.27,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,6,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),57.55,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,7,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),50.61,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,8,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),41.84,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,9,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),33.06,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,10,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),27.35,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,11,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),9.18,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,12,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),8.98,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,13,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),7.96,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,14,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),5.92,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,15,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,16,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),99.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,1,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),96.73,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,2,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),95.51,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,3,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),92.24,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,4,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),89.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,5,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),87.76,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,6,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),84.29,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,7,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),79.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,8,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),76.53,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,9,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),74.69,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,10,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),71.22,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,11,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),64.29,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,12,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),57.96,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,13,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),53.47,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,14,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),49.59,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,15,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),43.27,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,16,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),36.73,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,17,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),29.18,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,18,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),25.31,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,19,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),14.49,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,20,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),3.88,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,21,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),1.84,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,22,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,23,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),100.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,1,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),97.35,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,2,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),95.92,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,3,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),93.67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,4,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),91.84,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,5,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),86.33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,6,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),85.71,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,7,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),82.45,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,8,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),79.18,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,9,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),76.12,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,10,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),73.67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,11,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),72.24,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,12,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),68.98,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,13,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),62.04,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,14,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),58.98,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,15,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),56.33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,16,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),53.67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,17,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),48.57,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,18,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),40.41,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,19,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),36.12,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,20,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),30.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,21,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),26.12,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,22,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),19.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,23,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),12.45,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,24,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),5.92,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,25,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),3.27,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,26,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,27,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),99.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,1,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),97.76,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,2,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),95.51,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,3,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),92.86,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,4,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),91.22,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,5,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),87.35,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,6,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),83.88,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,7,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),79.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,8,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),75.92,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,9,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),74.69,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,10,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),71.63,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,11,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),67.55,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,12,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),64.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,13,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),62.24,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,14,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),59.39,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,15,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),53.47,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,16,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),51.63,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,17,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),48.57,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,18,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),47.55,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,19,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),41.84,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,20,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),40.82,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,21,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),34.29,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,22,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),31.22,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,23,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),27.96,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,24,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),21.43,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,25,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),10.82,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,26,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,27,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,1,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),99.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,2,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),99.39,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,3,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),97.76,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,4,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),95.1,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,5,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),92.86,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,6,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),91.43,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,7,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),90.61,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,8,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),85.1,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,9,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),80.61,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,10,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),74.69,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,11,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),72.86,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,12,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),68.57,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,13,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),67.14,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,14,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),63.88,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,15,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),62.45,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,16,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),60.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,17,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),56.94,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,18,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),53.88,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,19,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),52.04,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,20,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),48.57,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,21,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),42.86,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,22,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),38.16,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,23,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),34.69,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,24,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),32.45,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,25,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),27.35,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,26,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),23.06,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,27,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),19.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,28,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),17.76,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,29,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),15.51,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,30,day,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),83.33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,1,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),74.51,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,2,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),73.54,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,3,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),57.09,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,4,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),49.22,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,5,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),45.15,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,6,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),22.28,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,7,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),8.46,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,8,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),0.11,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,9,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,10,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),94.76,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,1,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),94.03,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,2,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),85.44,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,3,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),74.95,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,4,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),69.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,5,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),62.77,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,6,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),61.81,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,7,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),56.31,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,8,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),46.53,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,9,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),35.33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,10,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),21.98,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,11,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),11.49,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,12,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,13,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),99.76,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,1,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),99.99,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,2,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),98.06,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,3,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),95.19,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,4,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),91.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,5,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),83.49,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,6,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),77.52,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,7,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),68.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,8,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),66.06,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,9,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),60.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,10,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),45.08,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,11,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),31.49,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,12,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),14.33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,13,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,14,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,1,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),99.74,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,2,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),99.73,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,3,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),100.67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,4,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),91.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,5,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),87.54,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,6,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),81.09,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,7,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),80.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,8,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),69.63,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,9,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),62.71,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,10,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),56.74,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,11,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),54.11,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,12,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),43.14,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,13,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),36.45,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,14,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),26.91,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,15,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),24.99,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,16,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),15.69,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,17,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),16.15,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,18,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),8.75,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,19,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),2.07,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,20,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),2.05,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,21,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),2.51,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,22,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,23,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,1,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,2,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,3,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),99.24,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,4,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),97.32,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,5,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),93.01,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,6,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),85.38,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,7,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),85.12,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,8,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),84.15,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,9,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),80.09,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,10,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),74.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,11,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),62.92,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,12,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),63.14,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,13,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),57.41,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,14,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),56.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,15,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),45.47,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,16,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),39.74,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,17,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),37.58,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,18,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),36.13,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,19,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),32.07,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,20,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),31.58,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,21,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),23.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,22,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),17.26,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,23,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),11.76,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,24,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),2.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,25,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,26,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,1,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,2,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,3,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,4,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),99.22,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,5,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),97.78,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,6,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),92.52,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,7,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),87.03,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,8,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),86.77,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,9,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),86.76,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,10,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),79.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,11,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),78.63,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,12,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),71.71,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,13,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),62.88,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,14,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),53.82,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,15,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),54.28,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,16,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),50.69,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,17,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),48.53,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,18,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),45.42,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,19,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),45.88,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,20,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),43.48,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,21,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),38.46,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,22,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),27.26,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,23,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),26.29,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,24,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),20.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,25,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),13.16,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,26,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),12.67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,27,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),9.08,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,28,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,PHT05,adult survival time,population level survival rate as a function of time (secondstressor),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,29,day,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=50 at the start of the experiment,TRUE,01/01/2017
NA,REI003,survival,average survival to adulthood,18.16,percent,7,7,SEM,NA,4,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food 1=low 2=high,1,NA,NA,NA,NA,NA,NA,Palm Beach County Florida,colony (F9),NA,0,decimal,26.71,-80.05,Aedes aegypti,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Janairo. 2015. Late-instar Behavior of Aedes aegypti (Diptera: Culicidae) Larvae in Different Thermal and Nutritive Environments. Journal of Medical Entomology 52,10.1093/jme/tjv088,NA,NA,Veronica Andreo,veroandreo@gmail.com,the total number of individuals at the start of the experiment is the number of replicates multiplied by intercator1number (n=60),TRUE,01/01/2015
NA,REI001,survival,percent surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,2,NA,NA,NA,NA,NA,NA,Palm Beach County Florida,field (F4),01/06/2008,4,decimal,26.71,-80.05,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,8.6,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,REI003,survival,average survival to adulthood,6.5,percent,0,0,SEM,NA,4,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food 1=low 2=high,1,NA,NA,NA,NA,NA,NA,Palm Beach County Florida,colony (F9),NA,0,decimal,26.71,-80.05,Aedes aegypti,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,24.8,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Janairo. 2015. Late-instar Behavior of Aedes aegypti (Diptera: Culicidae) Larvae in Different Thermal and Nutritive Environments. Journal of Medical Entomology 52,10.1093/jme/tjv088,NA,NA,Veronica Andreo,veroandreo@gmail.com,the total number of individuals at the start of the experiment is the number of replicates multiplied by intercator1number (n=60),TRUE,01/01/2015
NA,REI001,survival,percent surviving life stage,50,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,2,NA,NA,NA,NA,NA,NA,Palm Beach County Florida,field (F4),01/06/2008,4,decimal,26.71,-80.05,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,14.3,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,REI003,survival,average survival to adulthood,38.33,percent,15,15,SEM,NA,4,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food 1=low 2=high,1,NA,NA,NA,NA,NA,NA,Palm Beach County Florida,colony (F9),NA,0,decimal,26.71,-80.05,Aedes aegypti,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,28.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Janairo. 2015. Late-instar Behavior of Aedes aegypti (Diptera: Culicidae) Larvae in Different Thermal and Nutritive Environments. Journal of Medical Entomology 52,10.1093/jme/tjv088,NA,NA,Veronica Andreo,veroandreo@gmail.com,the total number of individuals at the start of the experiment is the number of replicates multiplied by intercator1number (n=60),TRUE,01/01/2015
NA,REI003,survival,average survival to adulthood,88.33,percent,2.83,2.67,SEM,NA,4,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food 1=low 2=high,2,NA,NA,NA,NA,NA,NA,Palm Beach County Florida,colony (F9),NA,0,decimal,26.71,-80.05,Aedes aegypti,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Janairo. 2015. Late-instar Behavior of Aedes aegypti (Diptera: Culicidae) Larvae in Different Thermal and Nutritive Environments. Journal of Medical Entomology 52,10.1093/jme/tjv088,NA,NA,Veronica Andreo,veroandreo@gmail.com,the total number of individuals at the start of the experiment is the number of replicates multiplied by intercator1number (n=60),TRUE,01/01/2015
NA,PHX5,development time,mean duration of life stage,21,days,1.7,1.7,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,fluctuating temperature range,temperatures fluctuated between 16 and 12 degrees Celsius,NA,Celsius,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,juvenile (L1 to adult),male,NA,NA,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1996
NA,PHX5,development time,mean duration of life stage,16,days,2.05,2.05,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,fluctuating temperature range,temperatures fluctuated between 22 and 14 degrees Celsius,NA,Celsius,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,juvenile (L1 to adult),male,NA,NA,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1996
NA,PHX5,development time,mean duration of life stage,8.3,days,1.39,1.39,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,fluctuating temperature range,temperatures fluctuated between 26 and 18 degrees Celsius,NA,Celsius,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,juvenile (L1 to adult),male,NA,NA,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1996
NA,PHX5,development time,mean duration of life stage,4.6,days,0.49,0.49,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,fluctuating temperature range,temperatures fluctuated between 30 and 22 degrees Celsius,NA,Celsius,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,juvenile (L1 to adult),male,NA,NA,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1996
NA,PHX5,development time,mean duration of life stage,4.1,days,0.41,0.41,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,fluctuating temperature range,temperatures fluctuated between 33 and 27 degrees Celsius,NA,Celsius,NA,NA,NA,NA,NA,Maharashtra India,colony,NA,0,decimal,18.97,72.82,Aedes krombeini,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,krombeini,juvenile (L1 to adult),male,NA,NA,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Joshi 1996. Effect of fluctuating and constant temperatures on development adult longevity and fecundity in the mosquito Aedes krombeini. J. Therm. Biol. 3: 151-154.,10.1016/0306-4565(95)00035-12,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1996
NA,NA,development time,mean duration of life stage,6.36,days,0.92,0.92,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Aizu Japan,colony (F8),NA,0,decimal,37.494833,139.92975,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,REI001,survival,percent surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,1,NA,NA,NA,NA,NA,NA,Palm Beach County Florida,field (F4),01/06/2008,4,decimal,26.71,-80.05,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,8.6,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,REI003,survival,average survival to adulthood,96.66,percent,2.34,2,SEM,NA,4,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food 1=low 2=high,2,NA,NA,NA,NA,NA,NA,Palm Beach County Florida,colony (F9),NA,0,decimal,26.71,-80.05,Aedes aegypti,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,24.8,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Janairo. 2015. Late-instar Behavior of Aedes aegypti (Diptera: Culicidae) Larvae in Different Thermal and Nutritive Environments. Journal of Medical Entomology 52,10.1093/jme/tjv088,NA,NA,Veronica Andreo,veroandreo@gmail.com,the total number of individuals at the start of the experiment is the number of replicates multiplied by intercator1number (n=60),TRUE,01/01/2015
NA,REI001,survival,percent surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,3,NA,NA,NA,NA,NA,NA,Palm Beach County Florida,field (F4),01/06/2008,4,decimal,26.71,-80.05,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,8.6,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,REI001,survival,percent surviving life stage,83.3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,1,NA,NA,NA,NA,NA,NA,Palm Beach County Florida,field (F4),01/06/2008,4,decimal,26.71,-80.05,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,14.3,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,REI003,survival,average survival to adulthood,95,percent,2.33,2.17,SEM,NA,4,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food 1=low 2=high,2,NA,NA,NA,NA,NA,NA,Palm Beach County Florida,colony (F9),NA,0,decimal,26.71,-80.05,Aedes aegypti,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,28.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Janairo. 2015. Late-instar Behavior of Aedes aegypti (Diptera: Culicidae) Larvae in Different Thermal and Nutritive Environments. Journal of Medical Entomology 52,10.1093/jme/tjv088,NA,NA,Veronica Andreo,veroandreo@gmail.com,the total number of individuals at the start of the experiment is the number of replicates multiplied by intercator1number (n=60),TRUE,01/01/2015
NA,REI001,survival,percent surviving life stage,4.17,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,3,NA,NA,NA,NA,NA,NA,Palm Beach County Florida,field (F4),01/06/2008,4,decimal,26.71,-80.05,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,14.3,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,REI001,survival,percent surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,1,NA,NA,NA,NA,NA,NA,Tulsa Oklahoma,field (F1),01/06/2009,4,decimal,36.131389,-95.937222,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,8.6,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,REI001,survival,percent surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,2,NA,NA,NA,NA,NA,NA,Tulsa Oklahoma,field (F1),01/06/2009,4,decimal,36.131389,-95.937222,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,8.6,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,REI001,survival,percent surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,3,NA,NA,NA,NA,NA,NA,Tulsa Oklahoma,field (F1),01/06/2009,4,decimal,36.131389,-95.937222,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,8.6,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,REI001,survival,percent surviving life stage,87.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,1,NA,NA,NA,NA,NA,NA,Tulsa Oklahoma,field (F1),01/06/2009,4,decimal,36.131389,-95.937222,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,14.3,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,REI001,survival,percent surviving life stage,54.17,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,2,NA,NA,NA,NA,NA,NA,Tulsa Oklahoma,field (F1),01/06/2009,4,decimal,36.131389,-95.937222,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,14.3,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,REI001,survival,percent surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,3,NA,NA,NA,NA,NA,NA,Tulsa Oklahoma,field (F1),01/06/2009,4,decimal,36.131389,-95.937222,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,14.3,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,NA,development time,mean duration of life stage,2,days,0,0,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Aizu Japan,colony (F8),NA,0,decimal,37.494833,139.92975,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,7.73,days,0.83,0.83,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Aizu Japan,colony (F8),NA,0,decimal,37.494833,139.92975,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,mortality,percentage not surviving life stage,10,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Awaji Island Japan,colony (F8),NA,0,decimal,34.383333,134.833333,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did not survive the life stage from an initial number of n=50 at the start of the experiment,TRUE,01/01/2002
NA,NA,mortality,percentage not surviving life stage,12,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Awaji Island Japan,colony (F8),NA,0,decimal,34.383333,134.833333,Aedes albopictus,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did not survive the life stage from an initial number of n=50 at the start of the experiment,TRUE,01/01/2002
NA,NA,mortality,percentage not surviving life stage,12,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Awaji Island Japan,colony (F8),NA,0,decimal,34.383333,134.833333,Aedes albopictus,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did not survive the life stage from an initial number of n=50 at the start of the experiment,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,15.12,days,0.99,0.99,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Awaji Island Japan,colony (F16),NA,0,decimal,34.383333,134.833333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,11.74,days,1.28,1.28,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Awaji Island Japan,colony (F16),NA,0,decimal,34.383333,134.833333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,8.23,days,1.31,1.31,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Awaji Island Japan,colony (F16),NA,0,decimal,34.383333,134.833333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,10.25,days,0.46,0.46,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Awaji Island Japan,colony (F16),NA,0,decimal,34.383333,134.833333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,3.62,days,0.52,0.52,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Awaji Island Japan,colony (F16),NA,0,decimal,34.383333,134.833333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,11.75,days,0.89,0.89,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Awaji Island Japan,colony (F16),NA,0,decimal,34.383333,134.833333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,3.37,days,0.52,0.52,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Awaji Island Japan,colony (F16),NA,0,decimal,34.383333,134.833333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,7.5,days,0.89,0.89,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Awaji Island Japan,colony (F16),NA,0,decimal,34.383333,134.833333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,male,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,3.12,days,0.34,0.34,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Awaji Island Japan,colony (F16),NA,0,decimal,34.383333,134.833333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,male,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,8.87,days,1.46,1.46,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Awaji Island Japan,colony (F16),NA,0,decimal,34.383333,134.833333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,2.87,days,0.52,0.52,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Awaji Island Japan,colony (F16),NA,0,decimal,34.383333,134.833333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,5.87,days,0.52,0.52,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Awaji Island Japan,colony (F16),NA,0,decimal,34.383333,134.833333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,male,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,1.73,days,0.59,0.59,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Awaji Island Japan,colony (F16),NA,0,decimal,34.383333,134.833333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,male,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,6.41,days,1.01,1.01,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Awaji Island Japan,colony (F16),NA,0,decimal,34.383333,134.833333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,1.82,days,0.59,0.59,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Awaji Island Japan,colony (F16),NA,0,decimal,34.383333,134.833333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,13.87,days,0.35,0.35,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Awaji Island Japan,colony (F16),NA,0,decimal,34.383333,134.833333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,10.62,days,0.88,0.88,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Awaji Island Japan,colony (F16),NA,0,decimal,34.383333,134.833333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,7.6,days,0.74,0.74,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Awaji Island Japan,colony (F16),NA,0,decimal,34.383333,134.833333,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,mortality,percentage not surviving life stage,44,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Karachi Pakistan,colony (F77),NA,0,decimal,24.86,67.01,Aedes aegypti,NA,NA,NA,22,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did not survive the life stage from an initial number of n=50 at the start of the experiment,TRUE,01/01/2002
NA,NA,mortality,percentage not surviving life stage,8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Karachi Pakistan,colony (F77),NA,0,decimal,24.86,67.01,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did not survive the life stage from an initial number of n=50 at the start of the experiment,TRUE,01/01/2002
NA,NA,mortality,percentage not surviving life stage,6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Karachi Pakistan,colony (F77),NA,0,decimal,24.86,67.01,Aedes aegypti,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did not survive the life stage from an initial number of n=50 at the start of the experiment,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,12.29,days,1.11,1.11,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Karachi Pakistan,colony (F77),NA,0,decimal,24.86,67.01,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,3,days,0.58,0.58,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Karachi Pakistan,colony (F77),NA,0,decimal,24.86,67.01,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,13.4,days,0.52,0.52,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Karachi Pakistan,colony (F77),NA,0,decimal,24.86,67.01,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,3.2,days,0.42,0.42,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Karachi Pakistan,colony (F77),NA,0,decimal,24.86,67.01,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,8.03,days,1.03,1.03,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Karachi Pakistan,colony (F77),NA,0,decimal,24.86,67.01,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,male,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,2.2,days,0.48,0.48,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Karachi Pakistan,colony (F77),NA,0,decimal,24.86,67.01,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,male,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,7.95,days,1.28,1.28,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Karachi Pakistan,colony (F77),NA,0,decimal,24.86,67.01,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,2.43,days,0.6,0.6,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Karachi Pakistan,colony (F77),NA,0,decimal,24.86,67.01,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,6.67,days,0.91,0.91,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Karachi Pakistan,colony (F77),NA,0,decimal,24.86,67.01,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,male,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,1.53,days,0.51,0.51,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Karachi Pakistan,colony (F77),NA,0,decimal,24.86,67.01,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,male,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,6.79,days,1.08,1.08,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Karachi Pakistan,colony (F77),NA,0,decimal,24.86,67.01,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,1.42,days,0.51,0.51,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Karachi Pakistan,colony (F77),NA,0,decimal,24.86,67.01,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,16.6,days,0.84,0.84,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Karachi Pakistan,colony (F77),NA,0,decimal,24.86,67.01,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,10.38,days,1.28,1.28,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Karachi Pakistan,colony (F77),NA,0,decimal,24.86,67.01,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,8.21,days,1.18,1.18,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Karachi Pakistan,colony (F77),NA,0,decimal,24.86,67.01,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,15.29,days,0.95,0.95,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Karachi Pakistan,colony (F77),NA,0,decimal,24.86,67.01,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,10.23,days,1.25,1.25,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Karachi Pakistan,colony (F77),NA,0,decimal,24.86,67.01,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),male,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,8.2,days,0.87,0.87,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Karachi Pakistan,colony (F77),NA,0,decimal,24.86,67.01,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),male,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,mortality,percentage not surviving life stage,8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Makassar Indonesia,colony (F28),NA,0,decimal,-5.162759932,119.432821,Aedes albopictus,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did not survive the life stage from an initial number of n=50 at the start of the experiment,TRUE,01/01/2002
NA,NA,mortality,percentage not surviving life stage,10,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Makassar Indonesia,colony (F28),NA,0,decimal,-5.162759932,119.432821,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did not survive the life stage from an initial number of n=50 at the start of the experiment,TRUE,01/01/2002
NA,NA,mortality,percentage not surviving life stage,8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Makassar Indonesia,colony (F28),NA,0,decimal,-5.162759932,119.432821,Aedes albopictus,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did not survive the life stage from an initial number of n=50 at the start of the experiment,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,14.19,days,1.06,1.06,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Makassar Indonesia,colony (F28),NA,0,decimal,-5.162759932,119.432821,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,10.52,days,0.98,0.98,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Makassar Indonesia,colony (F28),NA,0,decimal,-5.162759932,119.432821,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,7.67,days,0.66,0.66,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Makassar Indonesia,colony (F28),NA,0,decimal,-5.162759932,119.432821,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,10.4,days,0.68,0.68,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Makassar Indonesia,colony (F28),NA,0,decimal,-5.162759932,119.432821,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,3.45,days,0.69,0.69,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Makassar Indonesia,colony (F28),NA,0,decimal,-5.162759932,119.432821,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,10.76,days,1.04,1.04,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Makassar Indonesia,colony (F28),NA,0,decimal,-5.162759932,119.432821,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,3.42,days,0.51,0.51,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Makassar Indonesia,colony (F28),NA,0,decimal,-5.162759932,119.432821,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,7.33,days,0.62,0.62,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Makassar Indonesia,colony (F28),NA,0,decimal,-5.162759932,119.432821,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,male,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,2.67,days,0.49,0.49,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Makassar Indonesia,colony (F28),NA,0,decimal,-5.162759932,119.432821,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,male,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,7.9,days,0.99,0.99,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Makassar Indonesia,colony (F28),NA,0,decimal,-5.162759932,119.432821,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,2.62,days,0.5,0.5,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Makassar Indonesia,colony (F28),NA,0,decimal,-5.162759932,119.432821,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,5.91,days,0.53,0.53,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Makassar Indonesia,colony (F28),NA,0,decimal,-5.162759932,119.432821,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,male,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,1.64,days,0.49,0.49,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Makassar Indonesia,colony (F28),NA,0,decimal,-5.162759932,119.432821,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,male,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,6.24,days,0.44,0.44,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Makassar Indonesia,colony (F28),NA,0,decimal,-5.162759932,119.432821,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,1.44,days,0.51,0.51,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Makassar Indonesia,colony (F28),NA,0,decimal,-5.162759932,119.432821,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,13.86,days,0.74,0.74,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Makassar Indonesia,colony (F28),NA,0,decimal,-5.162759932,119.432821,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,10,days,0.54,0.54,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Makassar Indonesia,colony (F28),NA,0,decimal,-5.162759932,119.432821,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,7.55,days,0.6,0.6,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Makassar Indonesia,colony (F28),NA,0,decimal,-5.162759932,119.432821,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,mortality,percentage not surviving life stage,46,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Surabaya Indonesia,colony (F99),NA,0,decimal,-7.245833,112.737778,Aedes aegypti,Yellow fever mosquito,NA,NA,23,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did not survive the life stage from an initial number of n=50 at the start of the experiment,TRUE,01/01/2002
NA,NA,mortality,percentage not surviving life stage,18,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Surabaya Indonesia,colony (F99),NA,0,decimal,-7.245833,112.737778,Aedes aegypti,Yellow fever mosquito,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did not survive the life stage from an initial number of n=50 at the start of the experiment,TRUE,01/01/2002
NA,NA,mortality,percentage not surviving life stage,14,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Surabaya Indonesia,colony (F99),NA,0,decimal,-7.245833,112.737778,Aedes aegypti,Yellow fever mosquito,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did not survive the life stage from an initial number of n=50 at the start of the experiment,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,11.25,days,1.81,1.81,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Surabaya Indonesia,colony (F99),NA,0,decimal,-7.245833,112.737778,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,3.58,days,0.51,0.51,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Surabaya Indonesia,colony (F99),NA,0,decimal,-7.245833,112.737778,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,12.45,days,1.57,1.57,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Surabaya Indonesia,colony (F99),NA,0,decimal,-7.245833,112.737778,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,3.64,days,0.5,0.5,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Surabaya Indonesia,colony (F99),NA,0,decimal,-7.245833,112.737778,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,7.82,days,0.85,0.85,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Surabaya Indonesia,colony (F99),NA,0,decimal,-7.245833,112.737778,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,male,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,2.36,days,0.49,0.49,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Surabaya Indonesia,colony (F99),NA,0,decimal,-7.245833,112.737778,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,male,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,8.36,days,0.95,0.95,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Surabaya Indonesia,colony (F99),NA,0,decimal,-7.245833,112.737778,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,2.41,days,0.5,0.5,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Surabaya Indonesia,colony (F99),NA,0,decimal,-7.245833,112.737778,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,PEDM3,lifespan,mean duration of entire life,67.1,days,5,5,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,07/08/2016,5,decimal,52.3116593,9.805051758,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,hatch-to-adult death,male,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,PEDM3,lifespan,mean duration of entire life,54.8,days,5.3,5.3,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,23/05/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,hatch-to-adult death,male,12,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,PEDM3,lifespan,mean duration of entire life,40.1,days,3.9,3.9,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,23/05/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,hatch-to-adult death,male,14,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,PEDM3,lifespan,mean duration of entire life,40.1,days,3,3,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,23/05/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,hatch-to-adult death,male,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,PEDM3,lifespan,mean duration of entire life,33.5,days,2.2,2.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,26/06/2015,5,decimal,52.3116593,9.805051758,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,hatch-to-adult death,male,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,PEDM3,lifespan,mean duration of entire life,21,days,2.6,2.6,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,21/07/2015,5,decimal,52.3116593,9.805051758,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,hatch-to-adult death,male,19,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,PEDM3,lifespan,mean duration of entire life,22.8,days,2.2,2.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,23/05/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,hatch-to-adult death,male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,PEDM3,lifespan,mean duration of entire life,18.6,days,1.5,1.5,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Senkenberg BiK F mesocosm hall,field,26/06/2015,5,decimal,50.11626835,8.649652285,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,hatch-to-adult death,male,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,PEDM3,lifespan,mean duration of entire life,17.2,days,1.5,1.5,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,23/05/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,hatch-to-adult death,male,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,PEDM3,lifespan,mean duration of entire life,15.8,days,1.8,1.8,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Senkenberg BiK F mesocosm hall,field,23/05/2015,5,decimal,50.11626835,8.649652285,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,hatch-to-adult death,male,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,PEDM3,lifespan,mean duration of entire life,15.1,days,2,2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,26/06/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,hatch-to-adult death,male,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,PEDM3,lifespan,mean duration of entire life,15.3,days,1.5,1.5,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,04/07/2016,5,decimal,52.3116593,9.805051758,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,hatch-to-adult death,male,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,PEDM3,lifespan,mean duration of entire life,12.4,days,1.6,1.6,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,26/06/2015,5,decimal,52.3116593,9.805051758,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,hatch-to-adult death,male,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,PEDM3,lifespan,mean duration of entire life,15,days,1.4,1.4,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,15/06/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,hatch-to-adult death,male,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,NA,development time,mean duration of life stage,5.7,days,0.91,0.91,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Surabaya Indonesia,colony (F99),NA,0,decimal,-7.245833,112.737778,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,male,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,1.73,days,0.45,0.45,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Surabaya Indonesia,colony (F99),NA,0,decimal,-7.245833,112.737778,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,male,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,6.36,days,1.14,1.14,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Surabaya Indonesia,colony (F99),NA,0,decimal,-7.245833,112.737778,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,1.45,days,0.51,0.51,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Surabaya Indonesia,colony (F99),NA,0,decimal,-7.245833,112.737778,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,16.09,days,1.81,1.81,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Surabaya Indonesia,colony (F99),NA,0,decimal,-7.245833,112.737778,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,10.77,days,0.97,0.97,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Surabaya Indonesia,colony (F99),NA,0,decimal,-7.245833,112.737778,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,7.81,days,1.18,1.18,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Surabaya Indonesia,colony (F99),NA,0,decimal,-7.245833,112.737778,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,14.83,days,1.7,1.7,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Surabaya Indonesia,colony (F99),NA,0,decimal,-7.245833,112.737778,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,10.18,days,0.96,0.96,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Surabaya Indonesia,colony (F99),NA,0,decimal,-7.245833,112.737778,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),male,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,7.43,days,0.73,0.73,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Surabaya Indonesia,colony (F99),NA,0,decimal,-7.245833,112.737778,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),male,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,mortality,percentage not surviving life stage,30,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Timor Indonesia,field (F5),NA,0,decimal,-9.233333,124.933333,Aedes aegypti,Yellow fever mosquito,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did not survive the life stage from an initial number of n=50 at the start of the experiment,TRUE,01/01/2002
NA,NA,mortality,percentage not surviving life stage,14,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Timor Indonesia,field (F5),NA,0,decimal,-9.233333,124.933333,Aedes aegypti,Yellow fever mosquito,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did not survive the life stage from an initial number of n=50 at the start of the experiment,TRUE,01/01/2002
NA,NA,mortality,percentage not surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Timor Indonesia,field (F5),NA,0,decimal,-9.233333,124.933333,Aedes aegypti,Yellow fever mosquito,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did not survive the life stage from an initial number of n=50 at the start of the experiment,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,10.32,days,1.43,1.43,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Timor Indonesia,field (F5),NA,0,decimal,-9.233333,124.933333,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,3.54,days,0.6,0.6,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Timor Indonesia,field (F5),NA,0,decimal,-9.233333,124.933333,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,11.81,days,1.83,1.83,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Timor Indonesia,field (F5),NA,0,decimal,-9.233333,124.933333,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,3.75,days,0.45,0.45,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Timor Indonesia,field (F5),NA,0,decimal,-9.233333,124.933333,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,9,days,1.9,1.9,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Timor Indonesia,field (F5),NA,0,decimal,-9.233333,124.933333,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,male,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,2.56,days,0.73,0.73,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Timor Indonesia,field (F5),NA,0,decimal,-9.233333,124.933333,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,male,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,9.5,days,2.19,2.19,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Timor Indonesia,field (F5),NA,0,decimal,-9.233333,124.933333,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,2.31,days,0.48,0.48,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Timor Indonesia,field (F5),NA,0,decimal,-9.233333,124.933333,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,15.56,days,1.59,1.59,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Timor Indonesia,field (F5),NA,0,decimal,-9.233333,124.933333,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,5.9,days,0.8,0.8,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Timor Indonesia,field (F5),NA,0,decimal,-9.233333,124.933333,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,male,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,1.6,days,0.5,0.5,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Timor Indonesia,field (F5),NA,0,decimal,-9.233333,124.933333,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,male,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,11.81,days,2.2,2.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Timor Indonesia,field (F5),NA,0,decimal,-9.233333,124.933333,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,5.72,days,0.83,0.83,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Timor Indonesia,field (F5),NA,0,decimal,-9.233333,124.933333,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,1.78,days,0.43,0.43,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Timor Indonesia,field (F5),NA,0,decimal,-9.233333,124.933333,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,7.5,days,0.86,0.86,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Timor Indonesia,field (F5),NA,0,decimal,-9.233333,124.933333,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,PEDF3,lifespan,mean duration of entire life,73.3,days,3.8,3.8,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,07/08/2016,5,decimal,52.3116593,9.805051758,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,hatch-to-adult death,female,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,PEDF3,lifespan,mean duration of entire life,59.5,days,3.9,3.9,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,23/05/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,hatch-to-adult death,female,12,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,PEDF3,lifespan,mean duration of entire life,42.7,days,3.6,3.6,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,23/05/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,hatch-to-adult death,female,14,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,PEDF3,lifespan,mean duration of entire life,42.4,days,2.5,2.5,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,23/05/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,hatch-to-adult death,female,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,PEDF3,lifespan,mean duration of entire life,34.5,days,2,2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,26/06/2015,5,decimal,52.3116593,9.805051758,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,hatch-to-adult death,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,PEDF3,lifespan,mean duration of entire life,22.8,days,3,3,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,21/07/2015,5,decimal,52.3116593,9.805051758,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,hatch-to-adult death,female,19,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,PEDF3,lifespan,mean duration of entire life,26,days,2.4,2.4,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,23/05/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,hatch-to-adult death,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,PEDF3,lifespan,mean duration of entire life,19.5,days,2,2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Senkenberg BiK F mesocosm hall,field,26/06/2015,5,decimal,50.11626835,8.649652285,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,hatch-to-adult death,female,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,PEDF3,lifespan,mean duration of entire life,18.3,days,1.6,1.6,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,23/05/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,hatch-to-adult death,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,PEDF3,lifespan,mean duration of entire life,16.8,days,1,1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Senkenberg BiK F mesocosm hall,field,23/05/2015,5,decimal,50.11626835,8.649652285,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,hatch-to-adult death,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,PEDF3,lifespan,mean duration of entire life,15.8,days,1.8,1.8,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,26/06/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,hatch-to-adult death,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,PEDF3,lifespan,mean duration of entire life,16.3,days,1.6,1.6,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,04/07/2016,5,decimal,52.3116593,9.805051758,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,hatch-to-adult death,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,PEDF3,lifespan,mean duration of entire life,13.5,days,1.7,1.7,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,26/06/2015,5,decimal,52.3116593,9.805051758,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,hatch-to-adult death,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,PEDF3,lifespan,mean duration of entire life,14.4,days,1.3,1.3,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,15/06/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,hatch-to-adult death,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,R1BZ,body size,mean R1 wing length vein length,3332.82,um (micro millimeters),105.39,105.39,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,07/08/2016,5,decimal,52.3116593,9.805051758,Aedes japonicus japonicus,Asian bush mosquito,part,wing,66,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,adult,male,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S6,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,R1BZ,body size,mean R1 wing length vein length,3282.65,um (micro millimeters),208.65,208.65,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,23/05/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,part,wing,36,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,adult,male,12,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S6,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,R1BZ,body size,mean R1 wing length vein length,3223.23,um (micro millimeters),132.78,132.78,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,23/05/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,part,wing,59,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,adult,male,14,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S6,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,R1BZ,body size,mean R1 wing length vein length,3317.07,um (micro millimeters),102.87,102.87,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,23/05/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,part,wing,57,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,adult,male,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S6,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,R1BZ,body size,mean R1 wing length vein length,3092.48,um (micro millimeters),77.37,77.37,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,26/06/2015,5,decimal,52.3116593,9.805051758,Aedes japonicus japonicus,Asian bush mosquito,part,wing,52,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,adult,male,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S6,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,R1BZ,body size,mean R1 wing length vein length,3127.6,um (micro millimeters),110.91,110.91,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,21/07/2015,5,decimal,52.3116593,9.805051758,Aedes japonicus japonicus,Asian bush mosquito,part,wing,42,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,adult,male,19,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S6,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,R1BZ,body size,mean R1 wing length vein length,2999.8,um (micro millimeters),142.96,142.96,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,23/05/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,part,wing,63,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,adult,male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S6,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,R1BZ,body size,mean R1 wing length vein length,2835.15,um (micro millimeters),58.57,58.57,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Senkenberg BiK F mesocosm hall,field,26/06/2015,5,decimal,50.11626835,8.649652285,Aedes japonicus japonicus,Asian bush mosquito,part,wing,22,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,adult,male,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S6,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,R1BZ,body size,mean R1 wing length vein length,2863.9,um (micro millimeters),112.98,112.98,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,23/05/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,part,wing,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,adult,male,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S6,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,R1BZ,body size,mean R1 wing length vein length,2739.74,um (micro millimeters),88.62,88.62,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Senkenberg BiK F mesocosm hall,field,23/05/2015,5,decimal,50.11626835,8.649652285,Aedes japonicus japonicus,Asian bush mosquito,part,wing,67,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,adult,male,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S6,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,R1BZ,body size,mean R1 wing length vein length,2747.54,um (micro millimeters),104.19,104.19,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,26/06/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,part,wing,118,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,adult,male,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S6,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,R1BZ,body size,mean R1 wing length vein length,2769.86,um (micro millimeters),100.26,100.26,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,04/07/2016,5,decimal,52.3116593,9.805051758,Aedes japonicus japonicus,Asian bush mosquito,part,wing,64,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,adult,male,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S6,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,R1BZ,body size,mean R1 wing length vein length,2623.11,um (micro millimeters),91.07,91.07,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,26/06/2015,5,decimal,52.3116593,9.805051758,Aedes japonicus japonicus,Asian bush mosquito,part,wing,54,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,adult,male,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S6,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,R1BZ,body size,mean R1 wing length vein length,2561.87,um (micro millimeters),9.55,9.55,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,15/06/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,part,wing,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,adult,male,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S6,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,R1BZ,body size,mean R1 wing length vein length,4183.87,um (micro millimeters),142.4,142.4,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,07/08/2016,5,decimal,52.3116593,9.805051758,Aedes japonicus japonicus,Asian bush mosquito,part,wing,76,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,adult,female,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S6,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,R1BZ,body size,mean R1 wing length vein length,4249.41,um (micro millimeters),125.91,125.91,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,23/05/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,part,wing,49,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,adult,female,12,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S6,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,R1BZ,body size,mean R1 wing length vein length,4157.7,um (micro millimeters),126.78,126.78,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,23/05/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,part,wing,62,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,adult,female,14,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S6,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,R1BZ,body size,mean R1 wing length vein length,4260.84,um (micro millimeters),173.03,173.03,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,23/05/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,part,wing,70,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,adult,female,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S6,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,R1BZ,body size,mean R1 wing length vein length,3975.15,um (micro millimeters),96.66,96.66,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,26/06/2015,5,decimal,52.3116593,9.805051758,Aedes japonicus japonicus,Asian bush mosquito,part,wing,72,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S6,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,R1BZ,body size,mean R1 wing length vein length,4013.49,um (micro millimeters),168.63,168.63,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,21/07/2015,5,decimal,52.3116593,9.805051758,Aedes japonicus japonicus,Asian bush mosquito,part,wing,45,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,adult,female,19,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S6,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,R1BZ,body size,mean R1 wing length vein length,3926.07,um (micro millimeters),160.91,160.91,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,23/05/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,part,wing,55,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S6,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,R1BZ,body size,mean R1 wing length vein length,3663.85,um (micro millimeters),288.3,288.3,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Senkenberg BiK F mesocosm hall,field,26/06/2015,5,decimal,50.11626835,8.649652285,Aedes japonicus japonicus,Asian bush mosquito,part,wing,32,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,adult,female,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S6,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,R1BZ,body size,mean R1 wing length vein length,3692.36,um (micro millimeters),158.11,158.11,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,23/05/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,part,wing,118,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S6,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,R1BZ,body size,mean R1 wing length vein length,3494.69,um (micro millimeters),103,103,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Senkenberg BiK F mesocosm hall,field,23/05/2015,5,decimal,50.11626835,8.649652285,Aedes japonicus japonicus,Asian bush mosquito,part,wing,97,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S6,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,R1BZ,body size,mean R1 wing length vein length,3416.04,um (micro millimeters),166.51,166.51,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,26/06/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,part,wing,81,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S6,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,R1BZ,body size,mean R1 wing length vein length,3434.57,um (micro millimeters),151.37,151.37,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,04/07/2016,5,decimal,52.3116593,9.805051758,Aedes japonicus japonicus,Asian bush mosquito,part,wing,54,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S6,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,R1BZ,body size,mean R1 wing length vein length,3182.84,um (micro millimeters),117.84,117.84,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,26/06/2015,5,decimal,52.3116593,9.805051758,Aedes japonicus japonicus,Asian bush mosquito,part,wing,47,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S6,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,R1BZ,body size,mean R1 wing length vein length,3039.69,um (micro millimeters),115.32,115.32,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,15/06/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,part,wing,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S6,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,TM1,mortality,mean percentage not surviving life stage,100,percent,0,0,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,07/08/2016,5,decimal,52.3116593,9.805051758,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (L1 to adult emergence),NA,0,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that did not survive life stage from an initial number of n=200 at the start of the experiment,TRUE,01/01/2018
NA,TM1,mortality,mean percentage not surviving life stage,99.5,percent,1.1,1.1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,07/08/2016,5,decimal,52.3116593,9.805051758,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,199,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (L1 to adult emergence),NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that did not survive life stage from an initial number of n=200 at the start of the experiment,TRUE,01/01/2018
NA,TM1,mortality,mean percentage not surviving life stage,16,percent,5.5,5.5,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,07/08/2016,5,decimal,52.3116593,9.805051758,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,32,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (L1 to adult emergence),NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that did not survive life stage from an initial number of n=200 at the start of the experiment,TRUE,01/01/2018
NA,TM1,mortality,mean percentage not surviving life stage,38.5,percent,14.2,14.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,23/05/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,77,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (L1 to adult emergence),NA,12,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that did not survive life stage from an initial number of n=200 at the start of the experiment,TRUE,01/01/2018
NA,TM1,mortality,mean percentage not surviving life stage,18,percent,4.8,4.8,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,23/05/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,36,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (L1 to adult emergence),NA,14,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that did not survive life stage from an initial number of n=200 at the start of the experiment,TRUE,01/01/2018
NA,TM1,mortality,mean percentage not surviving life stage,15,percent,7.9,7.9,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,23/05/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (L1 to adult emergence),NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that did not survive life stage from an initial number of n=200 at the start of the experiment,TRUE,01/01/2018
NA,TM1,mortality,mean percentage not surviving life stage,19,percent,9.6,9.6,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,26/06/2015,5,decimal,52.3116593,9.805051758,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,38,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (L1 to adult emergence),NA,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that did not survive life stage from an initial number of n=200 at the start of the experiment,TRUE,01/01/2018
NA,TM1,mortality,mean percentage not surviving life stage,29.5,percent,12.4,12.4,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,21/07/2015,5,decimal,52.3116593,9.805051758,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,59,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (L1 to adult emergence),NA,19,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that did not survive life stage from an initial number of n=200 at the start of the experiment,TRUE,01/01/2018
NA,TM1,mortality,mean percentage not surviving life stage,11.3,percent,6.5,6.5,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,23/05/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,23,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (L1 to adult emergence),NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that did not survive life stage from an initial number of n=200 at the start of the experiment,TRUE,01/01/2018
NA,TM1,mortality,mean percentage not surviving life stage,48.5,percent,27.6,27.6,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Senkenberg BiK F mesocosm hall,field,26/06/2015,5,decimal,50.11626835,8.649652285,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,97,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (L1 to adult emergence),NA,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that did not survive life stage from an initial number of n=200 at the start of the experiment,TRUE,01/01/2018
NA,TM1,mortality,mean percentage not surviving life stage,13.8,percent,8.4,8.4,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,23/05/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (L1 to adult emergence),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that did not survive life stage from an initial number of n=200 at the start of the experiment,TRUE,01/01/2018
NA,TM1,mortality,mean percentage not surviving life stage,6,percent,5.2,5.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Senkenberg BiK F mesocosm hall,field,23/05/2015,5,decimal,50.11626835,8.649652285,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (L1 to adult emergence),NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that did not survive life stage from an initial number of n=200 at the start of the experiment,TRUE,01/01/2018
NA,TM1,mortality,mean percentage not surviving life stage,41.5,percent,31.1,31.1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,26/06/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,83,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (L1 to adult emergence),NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that did not survive life stage from an initial number of n=200 at the start of the experiment,TRUE,01/01/2018
NA,TM1,mortality,mean percentage not surviving life stage,12.5,percent,7.7,7.7,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,04/07/2016,5,decimal,52.3116593,9.805051758,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (L1 to adult emergence),NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that did not survive life stage from an initial number of n=200 at the start of the experiment,TRUE,01/01/2018
NA,TM1,mortality,mean percentage not surviving life stage,70.5,percent,22.2,22.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,26/06/2015,5,decimal,52.3116593,9.805051758,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,141,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (L1 to adult emergence),NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that did not survive life stage from an initial number of n=200 at the start of the experiment,TRUE,01/01/2018
NA,TM1,mortality,mean percentage not surviving life stage,87.5,percent,6.4,6.4,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,15/06/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,175,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (L1 to adult emergence),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the number of individuals that did not survive life stage from an initial number of n=200 at the start of the experiment,TRUE,01/01/2018
NA,HSET,survival,mean hatch success rate as a function of exposure time at extreme low temperature,55,percent,21,21,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,duration of exposure to extreme cold temperatures,0,days,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,26/07/2016,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,egg,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined initial number of eggs across replicates (20 multiplied by 5),TRUE,01/01/2018
NA,HSET,survival,mean hatch success rate as a function of exposure time at extreme low temperature,65,percent,14,14,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,duration of exposure to extreme cold temperatures,0.2,days,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,26/07/2016,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,egg,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined initial number of eggs across replicates (20 multiplied by 5),TRUE,01/01/2018
NA,HSET,survival,mean hatch success rate as a function of exposure time at extreme low temperature,34,percent,18,18,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,duration of exposure to extreme cold temperatures,0.5,days,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,26/07/2016,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,egg,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined initial number of eggs across replicates (20 multiplied by 5),TRUE,01/01/2018
NA,HSET,survival,mean hatch success rate as a function of exposure time at extreme low temperature,95,percent,22,22,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,duration of exposure to extreme cold temperatures,0.7,days,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,26/07/2016,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,egg,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined initial number of eggs across replicates (20 multiplied by 5),TRUE,01/01/2018
NA,HSET,survival,mean hatch success rate as a function of exposure time at extreme low temperature,86,percent,13,13,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,duration of exposure to extreme cold temperatures,1,days,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,26/07/2016,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,egg,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined initial number of eggs across replicates (20 multiplied by 5),TRUE,01/01/2018
NA,HSET,survival,mean hatch success rate as a function of exposure time at extreme low temperature,87,percent,23,23,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,duration of exposure to extreme cold temperatures,2,days,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,26/07/2016,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,egg,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined initial number of eggs across replicates (20 multiplied by 5),TRUE,01/01/2018
NA,HSET,survival,mean hatch success rate as a function of exposure time at extreme low temperature,102,percent,4,4,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,duration of exposure to extreme cold temperatures,3,days,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,26/07/2016,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,egg,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined initial number of eggs across replicates (20 multiplied by 5),TRUE,01/01/2018
NA,HSET,survival,mean hatch success rate as a function of exposure time at extreme low temperature,110,percent,8,8,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,duration of exposure to extreme cold temperatures,4,days,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,26/07/2016,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,egg,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined initial number of eggs across replicates (20 multiplied by 5),TRUE,01/01/2018
NA,HSET,survival,mean hatch success rate as a function of exposure time at extreme low temperature,69,percent,24,24,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,duration of exposure to extreme cold temperatures,7,days,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,26/07/2016,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,egg,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined initial number of eggs across replicates (20 multiplied by 5),TRUE,01/01/2018
NA,HSET,survival,mean hatch success rate as a function of exposure time at extreme low temperature,58,percent,23,23,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,duration of exposure to extreme cold temperatures,14,days,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,26/07/2016,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,egg,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined initial number of eggs across replicates (20 multiplied by 5),TRUE,01/01/2018
NA,HSET,survival,mean hatch success rate as a function of exposure time at extreme low temperature,53,percent,6,6,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,duration of exposure to extreme cold temperatures,0,days,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,26/07/2016,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,egg,NA,0,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined initial number of eggs across replicates (20 multiplied by 5),TRUE,01/01/2018
NA,HSET,survival,mean hatch success rate as a function of exposure time at extreme low temperature,98,percent,0,0,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,duration of exposure to extreme cold temperatures,0.2,days,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,26/07/2016,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,egg,NA,0,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined initial number of eggs across replicates (20 multiplied by 5),TRUE,01/01/2018
NA,HSET,survival,mean hatch success rate as a function of exposure time at extreme low temperature,75,percent,19,19,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,duration of exposure to extreme cold temperatures,0.5,days,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,26/07/2016,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,egg,NA,0,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined initial number of eggs across replicates (20 multiplied by 5),TRUE,01/01/2018
NA,HSET,survival,mean hatch success rate as a function of exposure time at extreme low temperature,63,percent,30,30,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,duration of exposure to extreme cold temperatures,0.7,days,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,26/07/2016,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,egg,NA,0,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined initial number of eggs across replicates (20 multiplied by 5),TRUE,01/01/2018
NA,HSET,survival,mean hatch success rate as a function of exposure time at extreme low temperature,64,percent,16,16,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,duration of exposure to extreme cold temperatures,1,days,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,26/07/2016,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,egg,NA,0,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined initial number of eggs across replicates (20 multiplied by 5),TRUE,01/01/2018
NA,HSET,survival,mean hatch success rate as a function of exposure time at extreme low temperature,52,percent,20,20,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,duration of exposure to extreme cold temperatures,2,days,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,26/07/2016,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,egg,NA,0,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined initial number of eggs across replicates (20 multiplied by 5),TRUE,01/01/2018
NA,HSET,survival,mean hatch success rate as a function of exposure time at extreme low temperature,48,percent,19,19,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,duration of exposure to extreme cold temperatures,3,days,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,26/07/2016,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,egg,NA,0,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined initial number of eggs across replicates (20 multiplied by 5),TRUE,01/01/2018
NA,HSET,survival,mean hatch success rate as a function of exposure time at extreme low temperature,37,percent,33,33,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,duration of exposure to extreme cold temperatures,4,days,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,26/07/2016,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,egg,NA,0,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined initial number of eggs across replicates (20 multiplied by 5),TRUE,01/01/2018
NA,HSET,survival,mean hatch success rate as a function of exposure time at extreme low temperature,30,percent,9,9,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,duration of exposure to extreme cold temperatures,7,days,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,26/07/2016,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,egg,NA,0,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined initial number of eggs across replicates (20 multiplied by 5),TRUE,01/01/2018
NA,HSET,survival,mean hatch success rate as a function of exposure time at extreme low temperature,46,percent,4,4,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,duration of exposure to extreme cold temperatures,14,days,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,26/07/2016,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,egg,NA,0,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined initial number of eggs across replicates (20 multiplied by 5),TRUE,01/01/2018
NA,HSET,survival,mean hatch success rate as a function of exposure time at extreme low temperature,114,percent,7,7,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,duration of exposure to extreme cold temperatures,0,days,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,03/06/2017,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,egg,NA,-5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined initial number of eggs across replicates (20 multiplied by 5),TRUE,01/01/2018
NA,HSET,survival,mean hatch success rate as a function of exposure time at extreme low temperature,107,percent,7,7,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,duration of exposure to extreme cold temperatures,0.2,days,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,03/06/2017,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,egg,NA,-5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined initial number of eggs across replicates (20 multiplied by 5),TRUE,01/01/2018
NA,HSET,survival,mean hatch success rate as a function of exposure time at extreme low temperature,77,percent,21,21,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,duration of exposure to extreme cold temperatures,0.5,days,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,03/06/2017,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,egg,NA,-5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined initial number of eggs across replicates (20 multiplied by 5),TRUE,01/01/2018
NA,HSET,survival,mean hatch success rate as a function of exposure time at extreme low temperature,83,percent,11,11,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,duration of exposure to extreme cold temperatures,0.7,days,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,03/06/2017,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,egg,NA,-5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined initial number of eggs across replicates (20 multiplied by 5),TRUE,01/01/2018
NA,HSET,survival,mean hatch success rate as a function of exposure time at extreme low temperature,52,percent,14,14,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,duration of exposure to extreme cold temperatures,1,days,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,03/06/2017,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,egg,NA,-5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined initial number of eggs across replicates (20 multiplied by 5),TRUE,01/01/2018
NA,HSET,survival,mean hatch success rate as a function of exposure time at extreme low temperature,71,percent,19,19,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,duration of exposure to extreme cold temperatures,2,days,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,03/06/2017,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,egg,NA,-5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined initial number of eggs across replicates (20 multiplied by 5),TRUE,01/01/2018
NA,HSET,survival,mean hatch success rate as a function of exposure time at extreme low temperature,46,percent,30,30,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,duration of exposure to extreme cold temperatures,3,days,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,03/06/2017,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,egg,NA,-5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined initial number of eggs across replicates (20 multiplied by 5),TRUE,01/01/2018
NA,HSET,survival,mean hatch success rate as a function of exposure time at extreme low temperature,62,percent,22,22,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,duration of exposure to extreme cold temperatures,4,days,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,03/06/2017,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,egg,NA,-5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined initial number of eggs across replicates (20 multiplied by 5),TRUE,01/01/2018
NA,HSET,survival,mean hatch success rate as a function of exposure time at extreme low temperature,15,percent,6,6,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,duration of exposure to extreme cold temperatures,7,days,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,03/06/2017,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,egg,NA,-5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined initial number of eggs across replicates (20 multiplied by 5),TRUE,01/01/2018
NA,HSET,survival,mean hatch success rate as a function of exposure time at extreme low temperature,15,percent,9,9,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,duration of exposure to extreme cold temperatures,14,days,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,03/06/2017,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,egg,NA,-5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined initial number of eggs across replicates (20 multiplied by 5),TRUE,01/01/2018
NA,HSET,survival,mean hatch success rate as a function of exposure time at extreme low temperature,105,percent,15,15,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,duration of exposure to extreme cold temperatures,0,days,NA,NA,NA,NA,NA,Liebherr Biberach Germany,field,21/07/2016,5,decimal,48.09375619,9.802320578,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,egg,NA,-9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined initial number of eggs across replicates (20 multiplied by 5),TRUE,01/01/2018
NA,HSET,survival,mean hatch success rate as a function of exposure time at extreme low temperature,58,percent,14,14,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,duration of exposure to extreme cold temperatures,0.2,days,NA,NA,NA,NA,NA,Liebherr Biberach Germany,field,21/07/2016,5,decimal,48.09375619,9.802320578,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,egg,NA,-9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined initial number of eggs across replicates (20 multiplied by 5),TRUE,01/01/2018
NA,HSET,survival,mean hatch success rate as a function of exposure time at extreme low temperature,21,percent,13,13,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,duration of exposure to extreme cold temperatures,0.5,days,NA,NA,NA,NA,NA,Liebherr Biberach Germany,field,21/07/2016,5,decimal,48.09375619,9.802320578,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,egg,NA,-9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined initial number of eggs across replicates (20 multiplied by 5),TRUE,01/01/2018
NA,HSET,survival,mean hatch success rate as a function of exposure time at extreme low temperature,9,percent,6,6,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,duration of exposure to extreme cold temperatures,0.7,days,NA,NA,NA,NA,NA,Liebherr Biberach Germany,field,21/07/2016,5,decimal,48.09375619,9.802320578,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,egg,NA,-9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined initial number of eggs across replicates (20 multiplied by 5),TRUE,01/01/2018
NA,HSET,survival,mean hatch success rate as a function of exposure time at extreme low temperature,22,percent,5,5,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,duration of exposure to extreme cold temperatures,1,days,NA,NA,NA,NA,NA,Liebherr Biberach Germany,field,21/07/2016,5,decimal,48.09375619,9.802320578,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,egg,NA,-9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined initial number of eggs across replicates (20 multiplied by 5),TRUE,01/01/2018
NA,HSET,survival,mean hatch success rate as a function of exposure time at extreme low temperature,23,percent,10,10,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,duration of exposure to extreme cold temperatures,2,days,NA,NA,NA,NA,NA,Liebherr Biberach Germany,field,21/07/2016,5,decimal,48.09375619,9.802320578,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,egg,NA,-9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined initial number of eggs across replicates (20 multiplied by 5),TRUE,01/01/2018
NA,HSET,survival,mean hatch success rate as a function of exposure time at extreme low temperature,54,percent,14,14,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,duration of exposure to extreme cold temperatures,3,days,NA,NA,NA,NA,NA,Liebherr Biberach Germany,field,21/07/2016,5,decimal,48.09375619,9.802320578,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,egg,NA,-9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined initial number of eggs across replicates (20 multiplied by 5),TRUE,01/01/2018
NA,HSET,survival,mean hatch success rate as a function of exposure time at extreme low temperature,4,percent,3,3,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,duration of exposure to extreme cold temperatures,4,days,NA,NA,NA,NA,NA,Liebherr Biberach Germany,field,21/07/2016,5,decimal,48.09375619,9.802320578,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,egg,NA,-9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined initial number of eggs across replicates (20 multiplied by 5),TRUE,01/01/2018
NA,HSET,survival,mean hatch success rate as a function of exposure time at extreme low temperature,14,percent,8,8,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,duration of exposure to extreme cold temperatures,7,days,NA,NA,NA,NA,NA,Liebherr Biberach Germany,field,21/07/2016,5,decimal,48.09375619,9.802320578,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,egg,NA,-9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined initial number of eggs across replicates (20 multiplied by 5),TRUE,01/01/2018
NA,HSET,survival,mean hatch success rate as a function of exposure time at extreme low temperature,5,percent,2,2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,duration of exposure to extreme cold temperatures,14,days,NA,NA,NA,NA,NA,Liebherr Biberach Germany,field,21/07/2016,5,decimal,48.09375619,9.802320578,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,egg,NA,-9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined initial number of eggs across replicates (20 multiplied by 5),TRUE,01/01/2018
NA,JOE020,rate of infection,percentage mosquitoes infected with DENV-positive abdomens after a 14-day period,89,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Stock Island Florida,field (F2),NA,0,decimal,24.57,-81.7375,Aedes aegypti,NA,NA,NA,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Richards et al. 2012. Vector Competence of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) for Dengue Virus in the Florida Keys. J. Med. Entomol. 49:4,10.1603/ME11293,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals with infection present in the abdomen out of 19 tested. DENV-1 isolate BOL-KW010,TRUE,01/01/2012
NA,JOE020,rate of infection,percentage mosquitoes infected with DENV-positive abdomens after a 14-day period,75,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Stock Island Florida,field (F2),NA,0,decimal,24.57,-81.7375,Aedes aegypti,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Richards et al. 2012. Vector Competence of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) for Dengue Virus in the Florida Keys. J. Med. Entomol. 49:4,10.1603/ME11293,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals with infection present in the abdomen out of 4 tested. DENV-1 isolate BOL-KW010,TRUE,01/01/2012
NA,JOE020,rate of infection,percentage mosquitoes infected with DENV-positive abdomens after a 14-day period,75,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Key West Florida USA,field (F2),NA,0,decimal,24.555,-81.781944,Aedes aegypti,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Richards et al. 2012. Vector Competence of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) for Dengue Virus in the Florida Keys. J. Med. Entomol. 49:4,10.1603/ME11293,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals with infection present in the abdomen out of 4 tested. DENV-1 isolate BOL-KW010,TRUE,01/01/2012
NA,JOE020,rate of infection,percentage mosquitoes infected with DENV-positive abdomens after a 14-day period,80,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Key West Florida USA,field (F2),NA,0,decimal,24.555,-81.781944,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Richards et al. 2012. Vector Competence of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) for Dengue Virus in the Florida Keys. J. Med. Entomol. 49:4,10.1603/ME11293,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals with infection present in the abdomen out of 5 tested. DENV-1 isolate BOL-KW010,TRUE,01/01/2012
NA,JOE021,rate of infection,percentage mosquitoes infected with DENV-positive abdomens after a 14-day period,81,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Vero Beach Florida USA,field (F2),NA,0,decimal,27.65,-80.3833,Aedes albopictus,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Richards et al. 2012. Vector Competence of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) for Dengue Virus in the Florida Keys. J. Med. Entomol. 49:4,10.1603/ME11293,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals with infection present in the abdomen out of 16 tested. DENV-1 isolate BOL-KW010,TRUE,01/01/2012
NA,JOE022,rate of dissemination,percentage mosquitoes infected with DENV-positive legs after a 14-day period,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Stock Island Florida,field (F2),NA,0,decimal,24.57,-81.7375,Aedes aegypti,NA,NA,NA,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Richards et al. 2012. Vector Competence of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) for Dengue Virus in the Florida Keys. J. Med. Entomol. 49:4,10.1603/ME11293,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals with infection present in the abdomen out of 19 tested. DENV-1 isolate BOL-KW011,TRUE,01/01/2012
NA,JOE022,rate of dissemination,percentage mosquitoes infected with DENV-positive legs after a 14-day period,33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Stock Island Florida,field (F2),NA,0,decimal,24.57,-81.7375,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Richards et al. 2012. Vector Competence of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) for Dengue Virus in the Florida Keys. J. Med. Entomol. 49:4,10.1603/ME11293,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals with infection present in the abdomen out of 4 tested. DENV-1 isolate BOL-KW012,TRUE,01/01/2012
NA,JOE022,rate of dissemination,percentage mosquitoes infected with DENV-positive legs after a 14-day period,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Key West Florida USA,field (F2),NA,0,decimal,24.555,-81.781944,Aedes aegypti,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Richards et al. 2012. Vector Competence of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) for Dengue Virus in the Florida Keys. J. Med. Entomol. 49:4,10.1603/ME11293,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals with infection present in the abdomen out of 4 tested. DENV-1 isolate BOL-KW013,TRUE,01/01/2012
NA,JOE022,rate of dissemination,percentage mosquitoes infected with DENV-positive legs after a 14-day period,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Key West Florida USA,field (F2),NA,0,decimal,24.555,-81.781944,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Richards et al. 2012. Vector Competence of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) for Dengue Virus in the Florida Keys. J. Med. Entomol. 49:4,10.1603/ME11293,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals with infection present in the abdomen out of 5 tested. DENV-1 isolate BOL-KW014,TRUE,01/01/2012
NA,JOE022,rate of dissemination,percentage mosquitoes infected with DENV-positive legs after a 14-day period,92,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Vero Beach Florida USA,field (F2),NA,0,decimal,27.65,-80.3833,Aedes albopictus,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Richards et al. 2012. Vector Competence of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) for Dengue Virus in the Florida Keys. J. Med. Entomol. 49:4,10.1603/ME11293,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals with infection present in the abdomen out of 16 tested. DENV-1 isolate BOL-KW015,TRUE,01/01/2012
NA,JOE023,rate of transmission,percentage mosquitoes infected with DENV-positive saliva after a 14-day period,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Stock Island Florida,field (F2),NA,0,decimal,24.57,-81.7375,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Richards et al. 2012. Vector Competence of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) for Dengue Virus in the Florida Keys. J. Med. Entomol. 49:4,10.1603/ME11293,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals with infection present in the abdomen out of 19 tested. DENV-1 isolate BOL-KW016,TRUE,01/01/2012
NA,JOE023,rate of transmission,percentage mosquitoes infected with DENV-positive saliva after a 14-day period,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Stock Island Florida,field (F2),NA,0,decimal,24.57,-81.7375,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Richards et al. 2012. Vector Competence of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) for Dengue Virus in the Florida Keys. J. Med. Entomol. 49:4,10.1603/ME11293,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals with infection present in the abdomen out of 4 tested. DENV-1 isolate BOL-KW017,TRUE,01/01/2012
NA,JOE023,rate of transmission,percentage mosquitoes infected with DENV-positive saliva after a 14-day period,33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Key West Florida USA,field (F2),NA,0,decimal,24.555,-81.781944,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Richards et al. 2012. Vector Competence of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) for Dengue Virus in the Florida Keys. J. Med. Entomol. 49:4,10.1603/ME11293,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals with infection present in the abdomen out of 4 tested. DENV-1 isolate BOL-KW018,TRUE,01/01/2012
NA,JOE023,rate of transmission,percentage mosquitoes infected with DENV-positive saliva after a 14-day period,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Key West Florida USA,field (F2),NA,0,decimal,24.555,-81.781944,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Richards et al. 2012. Vector Competence of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) for Dengue Virus in the Florida Keys. J. Med. Entomol. 49:4,10.1603/ME11293,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals with infection present in the abdomen out of 5 tested. DENV-1 isolate BOL-KW019,TRUE,01/01/2012
NA,JOE023,rate of transmission,percentage mosquitoes infected with DENV-positive saliva after a 14-day period,8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Vero Beach Florida USA,field (F2),NA,0,decimal,27.65,-80.3833,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Richards et al. 2012. Vector Competence of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) for Dengue Virus in the Florida Keys. J. Med. Entomol. 49:4,10.1603/ME11293,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals with infection present in the abdomen out of 16 tested. DENV-1 isolate BOL-KW020,TRUE,01/01/2012
NA,PAL001,infection titer (abdomen),mean titers present (abdomen),3.1,log10 PFUeq DENV/ml,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Stock Island Florida,field (F2),NA,0,decimal,24.57,-81.7375,Aedes aegypti,NA,NA,NA,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Richards et al. 2012. Vector Competence of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) for Dengue Virus in the Florida Keys. J. Med. Entomol. 49:4,10.1603/ME11293,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals with infection present in the abdomen out of 19 tested. DENV-1 isolate BOL-KW010,TRUE,01/01/2012
NA,PAL001,infection titer,mean titers present (abdomen),2.9,log10 PFUeq DENV/ml,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Stock Island Florida,field (F2),NA,0,decimal,24.57,-81.7375,Aedes aegypti,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Richards et al. 2012. Vector Competence of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) for Dengue Virus in the Florida Keys. J. Med. Entomol. 49:4,10.1603/ME11293,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals with infection present in the abdomen out of 4 tested. DENV-1 isolate BOL-KW010,TRUE,01/01/2012
NA,PAL001,infection titer,mean titers present (abdomen),3.1,log10 PFUeq DENV/ml,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Key West Florida USA,field (F2),NA,0,decimal,24.555,-81.781944,Aedes aegypti,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Richards et al. 2012. Vector Competence of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) for Dengue Virus in the Florida Keys. J. Med. Entomol. 49:4,10.1603/ME11293,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals with infection present in the abdomen out of 4 tested. DENV-1 isolate BOL-KW010,TRUE,01/01/2012
NA,PAL001,infection titer,mean titers present (abdomen),3.1,log10 PFUeq DENV/ml,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Key West Florida USA,field (F2),NA,0,decimal,24.555,-81.781944,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Richards et al. 2012. Vector Competence of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) for Dengue Virus in the Florida Keys. J. Med. Entomol. 49:4,10.1603/ME11293,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals with infection present in the abdomen out of 5 tested. DENV-1 isolate BOL-KW010,TRUE,01/01/2012
NA,PAL001,infection titer,mean titers present (abdomen),3.2,log10 PFUeq DENV/ml,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Vero Beach Florida USA,field (F2),NA,0,decimal,27.65,-80.3833,Aedes albopictus,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Richards et al. 2012. Vector Competence of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) for Dengue Virus in the Florida Keys. J. Med. Entomol. 49:4,10.1603/ME11293,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals with infection present in the abdomen out of 16 tested. DENV-1 isolate BOL-KW010,TRUE,01/01/2012
NA,PAL002,infection titer (abdomen),mean titers present (leg),2.3,log10 PFUeq DENV/ml,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Stock Island Florida,field (F2),NA,0,decimal,24.57,-81.7375,Aedes aegypti,NA,NA,NA,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Richards et al. 2012. Vector Competence of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) for Dengue Virus in the Florida Keys. J. Med. Entomol. 49:4,10.1603/ME11293,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals with infection present in the abdomen out of 19 tested. DENV-1 isolate BOL-KW011,TRUE,01/01/2012
NA,PAL002,infection titer,mean titers present (leg),2.2,log10 PFUeq DENV/ml,0.01,0.01,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Stock Island Florida,field (F2),NA,0,decimal,24.57,-81.7375,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Richards et al. 2012. Vector Competence of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) for Dengue Virus in the Florida Keys. J. Med. Entomol. 49:4,10.1603/ME11293,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals with infection present in the abdomen out of 4 tested. DENV-1 isolate BOL-KW012,TRUE,01/01/2012
NA,PAL002,infection titer,mean titers present (leg),2.5,log10 PFUeq DENV/ml,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Key West Florida USA,field (F2),NA,0,decimal,24.555,-81.781944,Aedes aegypti,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Richards et al. 2012. Vector Competence of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) for Dengue Virus in the Florida Keys. J. Med. Entomol. 49:4,10.1603/ME11293,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals with infection present in the abdomen out of 4 tested. DENV-1 isolate BOL-KW013,TRUE,01/01/2012
NA,PAL002,infection titer,mean titers present (leg),2.3,log10 PFUeq DENV/ml,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Key West Florida USA,field (F2),NA,0,decimal,24.555,-81.781944,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Richards et al. 2012. Vector Competence of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) for Dengue Virus in the Florida Keys. J. Med. Entomol. 49:4,10.1603/ME11293,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals with infection present in the abdomen out of 5 tested. DENV-1 isolate BOL-KW014,TRUE,01/01/2012
NA,PAL002,infection titer,mean titers present (leg),1.6,log10 PFUeq DENV/ml,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Vero Beach Florida USA,field (F2),NA,0,decimal,27.65,-80.3833,Aedes albopictus,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Richards et al. 2012. Vector Competence of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) for Dengue Virus in the Florida Keys. J. Med. Entomol. 49:4,10.1603/ME11293,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals with infection present in the abdomen out of 16 tested. DENV-1 isolate BOL-KW015,TRUE,01/01/2012
NA,PAL003,infection titer (abdomen),mean titers present (saliva),NA,log10 PFUeq DENV/ml,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Stock Island Florida,field (F2),NA,0,decimal,24.57,-81.7375,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Richards et al. 2012. Vector Competence of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) for Dengue Virus in the Florida Keys. J. Med. Entomol. 49:4,10.1603/ME11293,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals with infection present in the abdomen out of 19 tested. DENV-1 isolate BOL-KW016,TRUE,01/01/2012
NA,PAL003,infection titer,mean titers present (saliva),NA,log10 PFUeq DENV/ml,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Stock Island Florida,field (F2),NA,0,decimal,24.57,-81.7375,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Richards et al. 2012. Vector Competence of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) for Dengue Virus in the Florida Keys. J. Med. Entomol. 49:4,10.1603/ME11293,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals with infection present in the abdomen out of 4 tested. DENV-1 isolate BOL-KW017,TRUE,01/01/2012
NA,PAL003,infection titer,mean titers present (saliva),1,log10 PFUeq DENV/ml,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Key West Florida USA,field (F2),NA,0,decimal,24.555,-81.781944,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Richards et al. 2012. Vector Competence of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) for Dengue Virus in the Florida Keys. J. Med. Entomol. 49:4,10.1603/ME11293,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals with infection present in the abdomen out of 4 tested. DENV-1 isolate BOL-KW018,TRUE,01/01/2012
NA,PAL003,infection titer,mean titers present (saliva),NA,log10 PFUeq DENV/ml,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Key West Florida USA,field (F2),NA,0,decimal,24.555,-81.781944,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Richards et al. 2012. Vector Competence of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) for Dengue Virus in the Florida Keys. J. Med. Entomol. 49:4,10.1603/ME11293,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals with infection present in the abdomen out of 5 tested. DENV-1 isolate BOL-KW019,TRUE,01/01/2012
NA,PAL003,infection titer,mean titers present (saliva),1.6,log10 PFUeq DENV/ml,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Vero Beach Florida USA,field (F2),NA,0,decimal,27.65,-80.3833,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Richards et al. 2012. Vector Competence of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) for Dengue Virus in the Florida Keys. J. Med. Entomol. 49:4,10.1603/ME11293,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals with infection present in the abdomen out of 16 tested,TRUE,01/01/2012
NA,NA,mortality,percentage not surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Queensland Australia (various locations),field (F5 gen.),15/04/2008,4,decimal,-18.31,145.705,Aedes aegypti,Yellow fever mosquito,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,12,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Richardson et al. 2011. Thermal sensitivity of Aedes aegypti from Australia: empirical data and prediction of effects on distribution. J. Med. Entomol. 48: 914-923,10.1603/ME10204,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from n=60 at the start of the experiment,TRUE,01/01/2011
NA,NA,mortality,percentage not surviving life stage,79.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Queensland Australia (various locations),field (F5 gen.),15/04/2008,4,decimal,-18.31,145.705,Aedes aegypti,Yellow fever mosquito,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Richardson et al. 2011. Thermal sensitivity of Aedes aegypti from Australia: empirical data and prediction of effects on distribution. J. Med. Entomol. 48: 914-923,10.1603/ME10204,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from n=60 at the start of the experiment,TRUE,01/01/2011
NA,NA,mortality,percentage not surviving life stage,7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Queensland Australia (various locations),field (F5 gen.),15/04/2008,4,decimal,-18.31,145.705,Aedes aegypti,Yellow fever mosquito,NA,NA,56,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Richardson et al. 2011. Thermal sensitivity of Aedes aegypti from Australia: empirical data and prediction of effects on distribution. J. Med. Entomol. 48: 914-923,10.1603/ME10204,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from n=60 at the start of the experiment,TRUE,01/01/2011
NA,NA,mortality,percentage not surviving life stage,8.3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Queensland Australia (various locations),field (F5 gen.),15/04/2008,4,decimal,-18.31,145.705,Aedes aegypti,Yellow fever mosquito,NA,NA,55,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Richardson et al. 2011. Thermal sensitivity of Aedes aegypti from Australia: empirical data and prediction of effects on distribution. J. Med. Entomol. 48: 914-923,10.1603/ME10204,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from n=60 at the start of the experiment,TRUE,01/01/2011
NA,NA,mortality,percentage not surviving life stage,19.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Queensland Australia (various locations),field (F5 gen.),15/04/2008,4,decimal,-18.31,145.705,Aedes aegypti,Yellow fever mosquito,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,37,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Richardson et al. 2011. Thermal sensitivity of Aedes aegypti from Australia: empirical data and prediction of effects on distribution. J. Med. Entomol. 48: 914-923,10.1603/ME10204,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from n=60 at the start of the experiment,TRUE,01/01/2011
NA,NA,mortality,percentage not surviving life stage,63.3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Queensland Australia (various locations),field (F5 gen.),15/04/2008,4,decimal,-18.31,145.705,Aedes aegypti,Yellow fever mosquito,NA,NA,22,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,40,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Richardson et al. 2011. Thermal sensitivity of Aedes aegypti from Australia: empirical data and prediction of effects on distribution. J. Med. Entomol. 48: 914-923,10.1603/ME10204,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from n=60 at the start of the experiment,TRUE,01/01/2011
NA,NA,development time,mean duration of life stage,13.86,days,1.28,1.28,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Timor Indonesia,field (F5),NA,0,decimal,-9.233333,124.933333,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,11.56,days,2.31,2.31,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Timor Indonesia,field (F5),NA,0,decimal,-9.233333,124.933333,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),male,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,mean duration of life stage,7.5,days,0.97,0.97,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Timor Indonesia,field (F5),NA,0,decimal,-9.233333,124.933333,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),male,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kamimura et al. 2002. Effect of temperature on the development of Aedes aegypti and Aedes albopictus. Med. Entomol. Zool. 53: 53-58.,10.7601/mez.53.53_1,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2002
NA,NA,development time,duration to first pupation,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,full food: 0.15 mg and 30 mg per larva on days 0 and 1 respectively and 0.60 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Puerto Rico,colony,NA,0,decimal,18.23829209,-66.42451028,Aedes aegypti,Yellow fever mosquito,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,15.6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,development time,duration to first pupation,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,full food: 0.15 mg and 30 mg per larva on days 0 and 1 respectively and 0.60 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Puerto Rico,colony,NA,0,decimal,18.23829209,-66.42451028,Aedes aegypti,Yellow fever mosquito,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21.1,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,development time,duration to first pupation,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,full food: 0.15 mg and 30 mg per larva on days 0 and 1 respectively and 0.60 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Puerto Rico,colony,NA,0,decimal,18.23829209,-66.42451028,Aedes aegypti,Yellow fever mosquito,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26.7,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,development time,duration to first pupation,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,full food: 0.15 mg and 30 mg per larva on days 0 and 1 respectively and 0.60 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Puerto Rico,colony,NA,0,decimal,18.23829209,-66.42451028,Aedes aegypti,Yellow fever mosquito,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,32.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,development time,duration to first pupation,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,half food: 0.075 mg and 15 mg per larva on days 0 and 1 respectively and 0.30 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Puerto Rico,colony,NA,0,decimal,18.23829209,-66.42451028,Aedes aegypti,Yellow fever mosquito,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,15.6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,development time,duration to first pupation,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,half food: 0.075 mg and 15 mg per larva on days 0 and 1 respectively and 0.30 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Puerto Rico,colony,NA,0,decimal,18.23829209,-66.42451028,Aedes aegypti,Yellow fever mosquito,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21.1,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,development time,duration to first pupation,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,half food: 0.075 mg and 15 mg per larva on days 0 and 1 respectively and 0.30 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Puerto Rico,colony,NA,0,decimal,18.23829209,-66.42451028,Aedes aegypti,Yellow fever mosquito,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26.7,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,development time,duration to first pupation,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,half food: 0.075 mg and 15 mg per larva on days 0 and 1 respectively and 0.30 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Puerto Rico,colony,NA,0,decimal,18.23829209,-66.42451028,Aedes aegypti,Yellow fever mosquito,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,32.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,development time,duration to first pupation,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,quarter food: 0.0375 mg and 0.075 mg per larva on days 0 and 1 respectively and 0.15 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Puerto Rico,colony,NA,0,decimal,18.23829209,-66.42451028,Aedes aegypti,Yellow fever mosquito,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26.7,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,development time,duration to first pupation,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,quarter food: 0.0375 mg and 0.075 mg per larva on days 0 and 1 respectively and 0.15 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Puerto Rico,colony,NA,0,decimal,18.23829209,-66.42451028,Aedes aegypti,Yellow fever mosquito,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,32.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,development time,duration to first pupation,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,quarter food: 0.0375 mg and 0.075 mg per larva on days 0 and 1 respectively and 0.15 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Puerto Rico,colony,NA,0,decimal,18.23829209,-66.42451028,Aedes aegypti,Yellow fever mosquito,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,32.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,development time,duration to first pupation,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,quarter food: 0.0375 mg and 0.075 mg per larva on days 0 and 1 respectively and 0.15 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Puerto Rico,colony,NA,0,decimal,18.23829209,-66.42451028,Aedes aegypti,Yellow fever mosquito,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,15.6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,development time,duration to when 90% of the sample population had pupated,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,full food: 0.15 mg and 30 mg per larva on days 0 and 1 respectively and 0.60 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Puerto Rico,colony,NA,0,decimal,18.23829209,-66.42451028,Aedes aegypti,Yellow fever mosquito,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21.1,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,development time,duration to when 90% of the sample population had pupated,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,full food: 0.15 mg and 30 mg per larva on days 0 and 1 respectively and 0.60 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Puerto Rico,colony,NA,0,decimal,18.23829209,-66.42451028,Aedes aegypti,Yellow fever mosquito,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26.7,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,development time,duration to when 90% of the sample population had pupated,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,full food: 0.15 mg and 30 mg per larva on days 0 and 1 respectively and 0.60 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Puerto Rico,colony,NA,0,decimal,18.23829209,-66.42451028,Aedes aegypti,Yellow fever mosquito,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,32.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,development time,duration to when 90% of the sample population had pupated,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,half food: 0.075 mg and 15 mg per larva on days 0 and 1 respectively and 0.30 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Puerto Rico,colony,NA,0,decimal,18.23829209,-66.42451028,Aedes aegypti,Yellow fever mosquito,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21.1,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,development time,duration to when 90% of the sample population had pupated,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,half food: 0.075 mg and 15 mg per larva on days 0 and 1 respectively and 0.30 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Puerto Rico,colony,NA,0,decimal,18.23829209,-66.42451028,Aedes aegypti,Yellow fever mosquito,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26.7,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,development time,duration to when 90% of the sample population had pupated,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,half food: 0.075 mg and 15 mg per larva on days 0 and 1 respectively and 0.30 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Puerto Rico,colony,NA,0,decimal,18.23829209,-66.42451028,Aedes aegypti,Yellow fever mosquito,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,32.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,development time,duration to when 90% of the sample population had pupated,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,quarter food: 0.0375 mg and 0.075 mg per larva on days 0 and 1 respectively and 0.15 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Puerto Rico,colony,NA,0,decimal,18.23829209,-66.42451028,Aedes aegypti,Yellow fever mosquito,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21.1,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,development time,duration to when 90% of the sample population had pupated,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,quarter food: 0.0375 mg and 0.075 mg per larva on days 0 and 1 respectively and 0.15 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Puerto Rico,colony,NA,0,decimal,18.23829209,-66.42451028,Aedes aegypti,Yellow fever mosquito,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26.7,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,development time,duration to when 90% of the sample population had pupated,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,quarter food: 0.0375 mg and 0.075 mg per larva on days 0 and 1 respectively and 0.15 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Puerto Rico,colony,NA,0,decimal,18.23829209,-66.42451028,Aedes aegypti,Yellow fever mosquito,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,32.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,development time,duration to first pupation,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,full food: 0.15 mg and 30 mg per larva on days 0 and 1 respectively and 0.60 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Alabama USA,colony,NA,0,decimal,32.88126093,-86.60803135,Aedes triseriatus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,larval,NA,15.6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,development time,duration to first pupation,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,full food: 0.15 mg and 30 mg per larva on days 0 and 1 respectively and 0.60 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Alabama USA,colony,NA,0,decimal,32.88126093,-86.60803135,Aedes triseriatus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,larval,NA,21.1,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,development time,duration to first pupation,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,full food: 0.15 mg and 30 mg per larva on days 0 and 1 respectively and 0.60 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Alabama USA,colony,NA,0,decimal,32.88126093,-86.60803135,Aedes triseriatus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,larval,NA,26.7,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,development time,duration to first pupation,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,full food: 0.15 mg and 30 mg per larva on days 0 and 1 respectively and 0.60 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Alabama USA,colony,NA,0,decimal,32.88126093,-86.60803135,Aedes triseriatus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,larval,NA,32.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,development time,duration to first pupation,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,half food: 0.075 mg and 15 mg per larva on days 0 and 1 respectively and 0.30 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Alabama USA,colony,NA,0,decimal,32.88126093,-86.60803135,Aedes triseriatus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,larval,NA,15.6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,development time,duration to first pupation,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,half food: 0.075 mg and 15 mg per larva on days 0 and 1 respectively and 0.30 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Alabama USA,colony,NA,0,decimal,32.88126093,-86.60803135,Aedes triseriatus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,larval,NA,21.1,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,development time,duration to first pupation,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,half food: 0.075 mg and 15 mg per larva on days 0 and 1 respectively and 0.30 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Alabama USA,colony,NA,0,decimal,32.88126093,-86.60803135,Aedes triseriatus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,larval,NA,26.7,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,development time,duration to first pupation,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,half food: 0.075 mg and 15 mg per larva on days 0 and 1 respectively and 0.30 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Alabama USA,colony,NA,0,decimal,32.88126093,-86.60803135,Aedes triseriatus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,larval,NA,32.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,development time,duration to first pupation,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,quarter food: 0.0375 mg and 0.075 mg per larva on days 0 and 1 respectively and 0.15 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Alabama USA,colony,NA,0,decimal,32.88126093,-86.60803135,Aedes triseriatus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,larval,NA,32.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,development time,duration to first pupation,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,quarter food: 0.0375 mg and 0.075 mg per larva on days 0 and 1 respectively and 0.15 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Alabama USA,colony,NA,0,decimal,32.88126093,-86.60803135,Aedes triseriatus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,larval,NA,32.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,development time,duration to first pupation,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,quarter food: 0.0375 mg and 0.075 mg per larva on days 0 and 1 respectively and 0.15 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Alabama USA,colony,NA,0,decimal,32.88126093,-86.60803135,Aedes triseriatus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,larval,NA,15.6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,development time,duration to when 90% of the sample population had pupated,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,full food: 0.15 mg and 30 mg per larva on days 0 and 1 respectively and 0.60 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Alabama USA,colony,NA,0,decimal,32.88126093,-86.60803135,Aedes triseriatus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,larval,NA,21.1,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,JOE009,infection rate (EIP),post-challenge duration before DENV-2 first detected,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony,NA,0,decimal,3.120833,101.656389,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rohani et al. 2009. The effect of extrinsic incubation temperature on development of dengue serotype 2 and 4 viruses in Aedes aegypti. Southeast Asian J Trop Med Public Health 40,NA,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2009
NA,JOE009,infection rate (EIP),post-challenge duration before DENV-2 first detected,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony,NA,0,decimal,3.120833,101.656389,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rohani et al. 2009. The effect of extrinsic incubation temperature on development of dengue serotype 2 and 4 viruses in Aedes aegypti. Southeast Asian J Trop Med Public Health 40,NA,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2009
NA,JOE009,infection rate (EIP),post-challenge duration before DENV-2 first detected,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony,NA,0,decimal,3.120833,101.656389,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rohani et al. 2009. The effect of extrinsic incubation temperature on development of dengue serotype 2 and 4 viruses in Aedes aegypti. Southeast Asian J Trop Med Public Health 40,NA,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2009
NA,JOE009,infection rate (EIP),post-challenge duration before DENV-4 first detected,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony,NA,0,decimal,3.120833,101.656389,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rohani et al. 2009. The effect of extrinsic incubation temperature on development of dengue serotype 2 and 4 viruses in Aedes aegypti. Southeast Asian J Trop Med Public Health 40,NA,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2009
NA,JOE009,infection rate (EIP),post-challenge duration before DENV-4 first detected,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony,NA,0,decimal,3.120833,101.656389,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rohani et al. 2009. The effect of extrinsic incubation temperature on development of dengue serotype 2 and 4 viruses in Aedes aegypti. Southeast Asian J Trop Med Public Health 40,NA,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2009
NA,JOE009,infection rate (EIP),post-challenge duration before DENV-4 first detected,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony,NA,0,decimal,3.120833,101.656389,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rohani et al. 2009. The effect of extrinsic incubation temperature on development of dengue serotype 2 and 4 viruses in Aedes aegypti. Southeast Asian J Trop Med Public Health 40,NA,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2009
NA,JOE010,infection rate (EIP),post-challenge duration before DENV-2 last detected,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony,NA,0,decimal,3.120833,101.656389,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rohani et al. 2009. The effect of extrinsic incubation temperature on development of dengue serotype 2 and 4 viruses in Aedes aegypti. Southeast Asian J Trop Med Public Health 40,NA,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2009
NA,JOE010,infection rate (EIP),post-challenge duration before DENV-2 last detected,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony,NA,0,decimal,3.120833,101.656389,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rohani et al. 2009. The effect of extrinsic incubation temperature on development of dengue serotype 2 and 4 viruses in Aedes aegypti. Southeast Asian J Trop Med Public Health 40,NA,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2009
NA,JOE010,infection rate (EIP),post-challenge duration before DENV-2 last detected,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony,NA,0,decimal,3.120833,101.656389,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rohani et al. 2009. The effect of extrinsic incubation temperature on development of dengue serotype 2 and 4 viruses in Aedes aegypti. Southeast Asian J Trop Med Public Health 40,NA,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2009
NA,JOE010,infection rate (EIP),post-challenge duration before DENV-4 last detected,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony,NA,0,decimal,3.120833,101.656389,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rohani et al. 2009. The effect of extrinsic incubation temperature on development of dengue serotype 2 and 4 viruses in Aedes aegypti. Southeast Asian J Trop Med Public Health 40,NA,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2009
NA,JOE010,infection rate (EIP),post-challenge duration before DENV-4 last detected,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony,NA,0,decimal,3.120833,101.656389,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rohani et al. 2009. The effect of extrinsic incubation temperature on development of dengue serotype 2 and 4 viruses in Aedes aegypti. Southeast Asian J Trop Med Public Health 40,NA,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2009
NA,JOE010,infection rate (EIP),post-challenge duration before DENV-4 last detected,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony,NA,0,decimal,3.120833,101.656389,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rohani et al. 2009. The effect of extrinsic incubation temperature on development of dengue serotype 2 and 4 viruses in Aedes aegypti. Southeast Asian J Trop Med Public Health 40,NA,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/2009
NA,JOE001,body size,mean initial (preflight) weight,3.49,mg,0.125,0.125,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,90,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE001,body size,mean initial (preflight) weight,3.83,mg,0.119,0.119,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,90,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE001,body size,mean initial (preflight) weight,3.04,mg,0.103,0.103,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,90,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE001,body size,mean initial (preflight) weight,3.71,mg,0.099,0.099,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,90,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE001,body size,mean initial (preflight) weight,2.95,mg,0.068,0.068,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,90,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE001,body size,mean initial (preflight) weight,3.31,mg,0.166,0.166,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,90,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,15,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE001,body size,mean initial (preflight) weight,3.47,mg,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,90,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,10,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE001,body size,mean initial (preflight) weight,3.31,mg,0.117,0.117,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,50,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE001,body size,mean initial (preflight) weight,3.59,mg,0.14,0.14,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,50,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE001,body size,mean initial (preflight) weight,3.89,mg,0.121,0.121,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,50,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE001,body size,mean initial (preflight) weight,3.64,mg,0.091,0.091,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,50,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE001,body size,mean initial (preflight) weight,3.3,mg,0.065,0.065,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,50,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE001,body size,mean initial (preflight) weight,3.73,mg,0.133,0.133,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,50,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,15,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE001,body size,mean initial (preflight) weight,3.68,mg,0.086,0.086,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,50,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,10,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE002,weight loss,mean weight loss during exhaustive flights,0.09,mg,0.011,0.011,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,90,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE002,weight loss,mean weight loss during exhaustive flights,0.18,mg,0.042,0.042,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,90,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE002,weight loss,mean weight loss during exhaustive flights,0.67,mg,0.073,0.073,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,90,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE002,weight loss,mean weight loss during exhaustive flights,1.02,mg,0.076,0.076,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,90,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE002,weight loss,mean weight loss during exhaustive flights,0.64,mg,0.054,0.054,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,90,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE002,weight loss,mean weight loss during exhaustive flights,0.46,mg,0.07,0.07,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,90,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,15,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE002,weight loss,mean weight loss during exhaustive flights,0.02,mg,0.005,0.005,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,90,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,10,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE002,weight loss,mean weight loss during exhaustive flights,0.18,mg,0.036,0.036,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,50,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE002,weight loss,mean weight loss during exhaustive flights,0.23,mg,0.033,0.033,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,50,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE002,weight loss,mean weight loss during exhaustive flights,0.72,mg,0.059,0.059,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,50,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE002,weight loss,mean weight loss during exhaustive flights,1.12,mg,0.066,0.066,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,50,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE002,weight loss,mean weight loss during exhaustive flights,0.65,mg,0.055,0.055,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,50,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE002,weight loss,mean weight loss during exhaustive flights,0.42,mg,0.058,0.058,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,50,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,15,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE002,weight loss,mean weight loss during exhaustive flights,0.01,mg,0.002,0.002,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,50,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,10,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE003,flight distance,average distance flown,13648.11,meters,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,30,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE003,flight distance,average distance flown,6663.12,meters,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,30,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE003,flight distance,average distance flown,621.66,meters,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,30,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE003,flight distance,average distance flown,279.9,meters,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,90,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,10,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE003,flight distance,average distance flown,9294.6,meters,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,90,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,15,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE003,flight distance,average distance flown,9735.12,meters,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,90,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE003,flight distance,average distance flown,14934.66,meters,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,90,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE003,flight distance,average distance flown,7129.2,meters,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,90,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE003,flight distance,average distance flown,2031.28,meters,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,90,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE003,flight distance,average distance flown,256.24,meters,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,90,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE003,flight distance,average distance flown,272.33,meters,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,50,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,10,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE003,flight distance,average distance flown,8589.95,meters,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,50,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,15,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE003,flight distance,average distance flown,8292.68,meters,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,50,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE003,flight distance,average distance flown,12958.29,meters,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,50,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE003,flight distance,average distance flown,6875.49,meters,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,50,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE003,flight distance,average distance flown,2311.18,meters,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,50,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE003,flight distance,average distance flown,495.75,meters,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,50,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE004,flight duration,mean duration of flights flown,17.6,mins,1.6,1.6,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,90,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE004,flight duration,mean duration of flights flown,80.8,mins,16.4,16.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,90,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE004,flight duration,mean duration of flights flown,258.3,mins,24.9,24.9,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,90,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE004,flight duration,mean duration of flights flown,554.2,mins,58.1,58.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,90,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE004,flight duration,mean duration of flights flown,361.9,mins,32.6,32.6,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,90,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE004,flight duration,mean duration of flights flown,414.1,mins,38.6,38.6,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,90,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,15,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE004,flight duration,mean duration of flights flown,30,mins,2.2,2.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,90,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,10,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE004,flight duration,mean duration of flights flown,29.9,mins,4.2,4.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,50,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE004,flight duration,mean duration of flights flown,70.2,mins,8.8,8.8,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,50,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE004,flight duration,mean duration of flights flown,228.1,mins,18.9,18.9,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,50,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE004,flight duration,mean duration of flights flown,472,mins,30.3,30.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,50,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE004,flight duration,mean duration of flights flown,322.7,mins,32.1,32.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,50,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE004,flight duration,mean duration of flights flown,376.3,mins,47.9,47.9,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,50,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,15,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE004,flight duration,mean duration of flights flown,18.1,mins,1.9,1.9,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,50,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,10,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE005,flight duration,mean duration of flights flown by female A. aegypti,18.6,meters min-1,1.11,1.11,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,90,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE005,flight duration,mean duration of flights flown by female A. aegypti,28,meters min-1,1.61,1.61,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,90,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE005,flight duration,mean duration of flights flown by female A. aegypti,28.4,meters min-1,0.8,0.8,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,90,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE005,flight duration,mean duration of flights flown by female A. aegypti,26.8,meters min-1,1.04,1.04,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,90,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE005,flight duration,mean duration of flights flown by female A. aegypti,27.4,meters min-1,0.86,0.86,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,90,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE005,flight duration,mean duration of flights flown by female A. aegypti,23.7,meters min-1,0.85,0.85,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,90,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,15,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE005,flight duration,mean duration of flights flown by female A. aegypti,13.1,meters min-1,0.53,0.53,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,90,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,10,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE005,flight duration,mean duration of flights flown by female A. aegypti,18.2,meters min-1,1.98,1.98,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,50,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE005,flight duration,mean duration of flights flown by female A. aegypti,34.1,meters min-1,2.32,2.32,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,50,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE005,flight duration,mean duration of flights flown by female A. aegypti,31.1,meters min-1,1.74,1.74,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,50,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE005,flight duration,mean duration of flights flown by female A. aegypti,28.1,meters min-1,1.19,1.19,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,50,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE005,flight duration,mean duration of flights flown by female A. aegypti,26.2,meters min-1,1.17,1.17,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,50,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE005,flight duration,mean duration of flights flown by female A. aegypti,23.5,meters min-1,0.83,0.83,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,50,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,15,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,JOE005,flight duration,mean duration of flights flown by female A. aegypti,8.9,meters min-1,0.96,0.96,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,RH,relative humidity,50,percent,NA,NA,NA,NA,NA,Maryland USA,colony,NA,0,decimal,39.43579978,-77.42725356,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,10,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Rowley and Graham. 1968. The effect of temperature and relative humidity on the flight performance of female Aedes aegypti. J. Insect Physiol. 14,10.1016/0022-1910(68)90018-8,NA,NA,Joe Harrison,joeh24@vt.edu,NA,TRUE,01/01/1968
NA,NA,development time,duration to when 90% of the sample population had pupated,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,full food: 0.15 mg and 30 mg per larva on days 0 and 1 respectively and 0.60 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Alabama USA,colony,NA,0,decimal,32.88126093,-86.60803135,Aedes triseriatus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,larval,NA,26.7,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,development time,duration to when 90% of the sample population had pupated,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,full food: 0.15 mg and 30 mg per larva on days 0 and 1 respectively and 0.60 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Alabama USA,colony,NA,0,decimal,32.88126093,-86.60803135,Aedes triseriatus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,larval,NA,32.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,development time,duration to when 90% of the sample population had pupated,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,half food: 0.075 mg and 15 mg per larva on days 0 and 1 respectively and 0.30 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Alabama USA,colony,NA,0,decimal,32.88126093,-86.60803135,Aedes triseriatus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,larval,NA,21.1,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,development time,duration to when 90% of the sample population had pupated,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,half food: 0.075 mg and 15 mg per larva on days 0 and 1 respectively and 0.30 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Alabama USA,colony,NA,0,decimal,32.88126093,-86.60803135,Aedes triseriatus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,larval,NA,26.7,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,development time,duration to when 90% of the sample population had pupated,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,half food: 0.075 mg and 15 mg per larva on days 0 and 1 respectively and 0.30 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Alabama USA,colony,NA,0,decimal,32.88126093,-86.60803135,Aedes triseriatus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,larval,NA,32.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,development time,duration to when 90% of the sample population had pupated,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,quarter food: 0.0375 mg and 0.075 mg per larva on days 0 and 1 respectively and 0.15 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Alabama USA,colony,NA,0,decimal,32.88126093,-86.60803135,Aedes triseriatus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,larval,NA,21.1,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,development time,duration to when 90% of the sample population had pupated,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,quarter food: 0.0375 mg and 0.075 mg per larva on days 0 and 1 respectively and 0.15 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Alabama USA,colony,NA,0,decimal,32.88126093,-86.60803135,Aedes triseriatus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,larval,NA,26.7,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,NA,development time,duration to when 90% of the sample population had pupated,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval food quantity,quarter food: 0.0375 mg and 0.075 mg per larva on days 0 and 1 respectively and 0.15 mg per larva thereafter,NA,mg larva-1 day-1,NA,NA,NA,NA,NA,Alabama USA,colony,NA,0,decimal,32.88126093,-86.60803135,Aedes triseriatus,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,larval,NA,32.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Keirans and Fay 1968. Effect of food and temperature on Aedes aegypti (L.) and Aedes triseriatus (Say) larval development. Mosq. News 28: 338-341.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1968
NA,KL03,development rate,inverse of the average number of days between egg and adult emergence in a given mesocosm,0.057,days-1,0,0,se,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,euthrophic,a slurry of tap water and impala faeces (Aepyceros melampus Petersi),NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,18.4,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5a,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was exposed to predation (1 adult Anisops varia Fieber (Hemiptera: Notonectidae)). interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL03x,development rate,inverse of the average number of days between egg and adult emergence in a given mesocosm,0.063,days-1,0.01,0.01,se,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,euthrophic,a slurry of tap water and impala faeces (Aepyceros melampus Petersi),NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,18.4,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5a,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was not exposed to predation. interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL03,development rate,inverse of the average number of days between egg and adult emergence in a given mesocosm,0.078,days-1,0.01,0.01,se,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,euthrophic,a slurry of tap water and impala faeces (Aepyceros melampus Petersi),NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,24.1,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5a,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was exposed to predation (1 adult Anisops varia Fieber (Hemiptera: Notonectidae)). interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL03x,development rate,inverse of the average number of days between egg and adult emergence in a given mesocosm,0.086,days-1,0.01,0.01,se,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,euthrophic,a slurry of tap water and impala faeces (Aepyceros melampus Petersi),NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,24.1,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5a,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was not exposed to predation. interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL03x,development rate,inverse of the average number of days between egg and adult emergence in a given mesocosm,0.097,days-1,0.01,0.01,se,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,euthrophic,a slurry of tap water and impala faeces (Aepyceros melampus Petersi),NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26.8,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5a,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was not exposed to predation. interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL03,development rate,inverse of the average number of days between egg and adult emergence in a given mesocosm,0.099,days-1,0.01,0.01,se,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,euthrophic,a slurry of tap water and impala faeces (Aepyceros melampus Petersi),NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26.8,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5a,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was exposed to predation (1 adult Anisops varia Fieber (Hemiptera: Notonectidae)). interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL03,development rate,inverse of the average number of days between egg and adult emergence in a given mesocosm,0.109,days-1,NA,NA,NA,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,euthrophic,a slurry of tap water and impala faeces (Aepyceros melampus Petersi),NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,30.9,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5a,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was exposed to predation (1 adult Anisops varia Fieber (Hemiptera: Notonectidae)). interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL03x,development rate,inverse of the average number of days between egg and adult emergence in a given mesocosm,0.1,days-1,0.002,0.002,se,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,euthrophic,a slurry of tap water and impala faeces (Aepyceros melampus Petersi),NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,30.9,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5a,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was not exposed to predation. interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL03,development rate,inverse of the average number of days between egg and adult emergence in a given mesocosm,0.058,days-1,NA,NA,NA,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,oligotrophic rearing conditions,no food was added to mimic rainwater fed breeding containers with realistic nutrient availability,NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,18.4,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5b,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was not exposed to predation. interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL03,development rate,inverse of the average number of days between egg and adult emergence in a given mesocosm,0.071,days-1,0,0,se,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,oligotrophic rearing conditions,no food was added to mimic rainwater fed breeding containers with realistic nutrient availability,NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,24.1,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5b,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was not exposed to predation. interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL03,development rate,inverse of the average number of days between egg and adult emergence in a given mesocosm,0.061,days-1,0,0,se,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,oligotrophic rearing conditions,no food was added to mimic rainwater fed breeding containers with realistic nutrient availability,NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,24.1,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5b,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was exposed to predation (1 adult Anisops varia Fieber (Hemiptera: Notonectidae)). interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL03,development rate,inverse of the average number of days between egg and adult emergence in a given mesocosm,0.068,days-1,0,0,se,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,oligotrophic rearing conditions,no food was added to mimic rainwater fed breeding containers with realistic nutrient availability,NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26.8,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5b,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was not exposed to predation. interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL03,development rate,inverse of the average number of days between egg and adult emergence in a given mesocosm,0.075,days-1,0.02,0.02,se,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,oligotrophic rearing conditions,no food was added to mimic rainwater fed breeding containers with realistic nutrient availability,NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26.8,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5b,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was exposed to predation (1 adult Anisops varia Fieber (Hemiptera: Notonectidae)). interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL03,development rate,inverse of the average number of days between egg and adult emergence in a given mesocosm,0.098,days-1,NA,NA,NA,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,oligotrophic rearing conditions,no food was added to mimic rainwater fed breeding containers with realistic nutrient availability,NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,30.9,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5b,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was not exposed to predation. interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,KL03,development rate,inverse of the average number of days between egg and adult emergence in a given mesocosm,0.068,days-1,0.01,0.01,se,NA,NA,terrestrial,field (temperature-contolled mesocosm),NA,NA,NA,NA,NA,NA,NA,oligotrophic rearing conditions,no food was added to mimic rainwater fed breeding containers with realistic nutrient availability,NA,NA,NA,NA,NA,NA,NA,Skukuza Kruger National Park South Africa,field,05/05/2017,5,decimal,-24.996364,31.592643,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,30.9,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5b,Krol et al. 2019. Eutrophication governs predator-prey interactions and temperature effects in Aedes aegypti populations. Parasites Vectors 12: 179,10.1186/s13071-019-3431-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1 was exposed to predation (1 adult Anisops varia Fieber (Hemiptera: Notonectidae)). interactor1number is the number of individuals allocated at the start of the experiment,TRUE,01/01/2019
NA,JOE100,development time,mean duration of life stage,10.3,days,0.6,0.6,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,container material. 1 = plastic 2 = earthen 3 = iron,1,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to pupal,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2016
NA,JOE100,development time,mean duration of life stage,7.3,days,0.6,0.6,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,plastic container,1,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to pupal,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2016
NA,JOE100,development time,mean duration of life stage,5,days,0,0,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,plastic container,1,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to pupal,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2016
NA,JOE100,development time,mean duration of life stage,4.7,days,0.6,0.6,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,plastic container,1,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,76,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to pupal,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2016
NA,JOE100,development time,mean duration of life stage,5.6,days,0.6,0.6,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,plastic container,1,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to pupal,NA,38,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2016
NA,JOE100,development time,mean duration of life stage,0,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,plastic container,1,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,65,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to pupal,NA,40,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,originaltraitvalue set to zero because no larvae pupated at this temperature. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2016
NA,JOE100,development time,mean duration of life stage,9.7,days,0.6,0.6,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,iron container,3,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,32,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to pupal,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2016
NA,RAT002,mortality,percent not surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did not survive life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT002,mortality,percent not surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT002,mortality,percent not surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT002,mortality,percent not surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT002,mortality,percent not surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT002,mortality,percent not surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,40,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT002,mortality,percent not surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT002,mortality,percent not surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT002,mortality,percent not surviving life stage,4,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT002,mortality,percent not surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT002,mortality,percent not surviving life stage,8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,46,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,40,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT002,mortality,percent not surviving life stage,4,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT002,mortality,percent not surviving life stage,6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,47,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT002,mortality,percent not surviving life stage,14,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,41,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT002,mortality,percent not surviving life stage,2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,49,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT002,mortality,percent not surviving life stage,80,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,40,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT002,mortality,percent not surviving life stage,8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,44,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT002,mortality,percent not surviving life stage,2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,46,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT002,mortality,percent not surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,41,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT002,mortality,percent not surviving life stage,2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT002,mortality,percent not surviving life stage,62,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT002,mortality,percent not surviving life stage,6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,43,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT002,mortality,percent not surviving life stage,12,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,36,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT002,mortality,percent not surviving life stage,10,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,43,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT002,mortality,percentage not surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from n=50 at the start of the experiment,TRUE,01/01/2016
NA,RAT002,mortality,percentage not surviving life stage,74,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from n=50 at the start of the experiment,TRUE,01/01/2016
NA,RAT002,mortality,percentage not surviving life stage,16,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,37,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from n=50 at the start of the experiment,TRUE,01/01/2016
NA,RAT002,mortality,percentage not surviving life stage,30,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from n=50 at the start of the experiment,TRUE,01/01/2016
NA,RAT002,mortality,percentage not surviving life stage,14,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,37,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from n=50 at the start of the experiment,TRUE,01/01/2016
NA,RAT002,mortality,percentage not surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,40,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from n=50 at the start of the experiment,TRUE,01/01/2016
NA,JOE100,development time,mean duration of life stage,7.3,days,0.6,0.6,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,iron container,3,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to pupal,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2016
NA,JOE100,development time,mean duration of life stage,5,days,0,0,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,iron container,3,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to pupal,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2016
NA,JOE100,development time,mean duration of life stage,4.7,days,0.6,0.6,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,iron container,3,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to pupal,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2016
NA,JOE100,development time,mean duration of life stage,0,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,iron container,3,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to pupal,NA,38,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,originaltraitvalue set to zero because no larvae pupated at this temperature. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2016
NA,JOE100,development time,mean duration of life stage,0,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,iron container,3,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to pupal,NA,40,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,originaltraitvalue set to zero because no larvae pupated at this temperature. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2016
NA,JOE100,development time,mean duration of life stage,9.3,days,0.6,0.6,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,earthen pot,2,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to pupal,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2016
NA,JOE100,development time,mean duration of life stage,5.6,days,0.6,0.6,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,earthen pot,2,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to pupal,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2016
NA,JOE100,development time,mean duration of life stage,4.6,days,0.6,0.6,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,earthen pot,2,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to pupal,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2016
NA,JOE100,development time,mean duration of life stage,4.3,days,0.6,0.6,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,earthen pot,2,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to pupal,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2016
NA,JOE100,development time,mean duration of life stage,5,days,0,0,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,earthen pot,2,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to pupal,NA,38,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2016
NA,JOE100,development time,mean duration of life stage,0,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,earthen pot,2,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to pupal,NA,40,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,originaltraitvalue set to zero because no larvae pupated at this temperature. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2016
NA,JOE102,development time,mean duration of life stage,15.7,days,0.6,0.6,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,plastic container,1,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to adult,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number assumes all individuals that survived to the pupal stage also survived to adulthood,TRUE,01/01/2016
NA,JOE102,development time,mean duration of life stage,9,days,0,0,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,plastic container,1,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to adult,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number assumes all individuals that survived to the pupal stage also survived to adulthood,TRUE,01/01/2016
NA,JOE102,development time,mean duration of life stage,6.3,days,0.6,0.6,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,plastic container,1,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to adult,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number assumes all individuals that survived to the pupal stage also survived to adulthood,TRUE,01/01/2016
NA,JOE102,development time,mean duration of life stage,6,days,0,0,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,plastic container,1,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,76,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to adult,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number assumes all individuals that survived to the pupal stage also survived to adulthood,TRUE,01/01/2016
NA,JOE102,development time,mean duration of life stage,8.3,days,0.6,0.6,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,plastic container,1,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to adult,NA,38,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number assumes all individuals that survived to the pupal stage also survived to adulthood,TRUE,01/01/2016
NA,JOE102,development time,mean duration of life stage,0,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,plastic container,1,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,65,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to adult,NA,40,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,originaltraitvalue set to zero because no larvae pupated at this temperature. interactor1number assumes all individuals that survived to the pupal stage also survived to adulthood,TRUE,01/01/2016
NA,JOE102,development time,mean duration of life stage,12.7,days,0.6,0.6,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,iron container,3,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,32,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to adult,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number assumes all individuals that survived to the pupal stage also survived to adulthood,TRUE,01/01/2016
NA,JOE102,development time,mean duration of life stage,10,days,1,1,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,iron container,3,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to adult,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number assumes all individuals that survived to the pupal stage also survived to adulthood,TRUE,01/01/2016
NA,JOE102,development time,mean duration of life stage,8,days,0,0,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,iron container,3,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to adult,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number assumes all individuals that survived to the pupal stage also survived to adulthood,TRUE,01/01/2016
NA,JOE102,development time,mean duration of life stage,7,days,0,0,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,iron container,3,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to adult,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number assumes all individuals that survived to the pupal stage also survived to adulthood,TRUE,01/01/2016
NA,JOE102,development time,mean duration of life stage,0,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,iron container,3,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to adult,NA,38,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,originaltraitvalue set to zero because no larvae pupated at this temperature. interactor1number assumes all individuals that survived to the pupal stage also survived to adulthood,TRUE,01/01/2016
NA,JOE102,development time,mean duration of life stage,0,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,iron container,3,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to adult,NA,40,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,originaltraitvalue set to zero because no larvae pupated at this temperature. interactor1number assumes all individuals that survived to the pupal stage also survived to adulthood,TRUE,01/01/2016
NA,JOE102,development time,mean duration of life stage,13.7,days,0.6,0.6,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,earthen pot,2,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to adult,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2016
NA,JOE102,development time,mean duration of life stage,7.6,days,0.6,0.6,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,earthen pot,2,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to adult,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2016
NA,JOE102,development time,mean duration of life stage,6.6,days,0.6,0.6,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,earthen pot,2,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to adult,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2016
NA,JOE102,development time,mean duration of life stage,6.3,days,0.6,0.6,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,earthen pot,2,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to adult,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2016
NA,JOE102,development time,mean duration of life stage,9,days,0,0,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,earthen pot,2,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to adult,NA,38,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2016
NA,JOE102,development time,mean duration of life stage,0,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing container,earthen pot,2,NA,NA,NA,NA,NA,NA,New Delhi India,colony,NA,0,decimal,28.58,77.08,Aedes aegypti,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to adult,NA,40,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Kumar et al. 2016. Impact of container material on the development of Aedes aegypti larvae at different temperatures. Journal of Vector Borne Diseases 53:2,NA,NA,NA,Joe Harrison,joeh24@vt.edu,originaltraitvalue set to zero because no larvae pupated at this temperature. interactor1number assumes all individuals that survived to the pupal stage also survived to adulthood,TRUE,01/01/2016
NA,PHX58411,longevity,mean duration of life stage,14.76,days,2.74,2.74,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Joao Pessoa Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.136389,-34.852592,Aedes aegypti,Yellow fever mosquito,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,RAT004,mortality,percent not surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did not survive life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT004,mortality,percent not surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT004,mortality,percent not surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT004,mortality,percent not surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT004,mortality,percent not surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT004,mortality,percent not surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,40,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT004,mortality,percent not surviving life stage,10,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,45,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT004,mortality,percent not surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT004,mortality,percent not surviving life stage,2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,49,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT004,mortality,percent not surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT004,mortality,percent not surviving life stage,8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,46,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,40,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT004,mortality,percent not surviving life stage,6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,42,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT004,mortality,percent not surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT004,mortality,percent not surviving life stage,2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT004,mortality,percent not surviving life stage,8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,46,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT004,mortality,percent not surviving life stage,88,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,40,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT004,mortality,percent not surviving life stage,4,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT004,mortality,percent not surviving life stage,4,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT004,mortality,percent not surviving life stage,2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,47,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT004,mortality,percent not surviving life stage,12,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT004,mortality,percent not surviving life stage,24,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT004,mortality,percent not surviving life stage,4,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT004,mortality,percent not surviving life stage,2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,47,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT004,mortality,percent not surviving life stage,12,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT004,mortality,percentage not surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did not survive life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT004,mortality,percentage not surviving life stage,44,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT004,mortality,percentage not surviving life stage,8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,44,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT004,mortality,percentage not surviving life stage,8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,43,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT004,mortality,percentage not surviving life stage,32,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT004,mortality,percentage not surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,40,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did not survive life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,PHX58411,longevity,mean duration of life stage,34.71,days,1.88,1.88,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Joao Pessoa Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.136389,-34.852592,Aedes aegypti,Yellow fever mosquito,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX58411,longevity,mean duration of life stage,30.08,days,3.95,3.95,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Joao Pessoa Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.136389,-34.852592,Aedes aegypti,Yellow fever mosquito,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX58411,longevity,mean duration of life stage,22.16,days,1.98,1.98,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Joao Pessoa Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.136389,-34.852592,Aedes aegypti,Yellow fever mosquito,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX58411,longevity,mean duration of life stage,10.53,days,1.68,1.68,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Joao Pessoa Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.136389,-34.852592,Aedes aegypti,Yellow fever mosquito,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX58411,longevity,mean duration of life stage,15.37,days,2.64,2.64,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Joao Pessoa Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.136389,-34.852592,Aedes aegypti,Yellow fever mosquito,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,16,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX58411,longevity,mean duration of life stage,35.55,days,3.41,3.41,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Joao Pessoa Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.136389,-34.852592,Aedes aegypti,Yellow fever mosquito,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX58411,longevity,mean duration of life stage,32.06,days,2.26,2.26,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Joao Pessoa Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.136389,-34.852592,Aedes aegypti,Yellow fever mosquito,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,28,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX58411,longevity,mean duration of life stage,23.18,days,3.38,3.38,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Joao Pessoa Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.136389,-34.852592,Aedes aegypti,Yellow fever mosquito,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX58411,longevity,mean duration of life stage,8.72,days,1.43,1.43,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Joao Pessoa Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.136389,-34.852592,Aedes aegypti,Yellow fever mosquito,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,36.28,days,1.63,1.63,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Joao Pessoa Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.136389,-34.852592,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,16,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,20.91,days,0.54,0.54,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Joao Pessoa Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.136389,-34.852592,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,12.52,days,0.49,0.49,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Joao Pessoa Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.136389,-34.852592,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,28,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,11.43,days,0.64,0.64,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Joao Pessoa Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.136389,-34.852592,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,10.67,days,1.4,1.4,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Joao Pessoa Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.136389,-34.852592,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,10.4,days,0.59,0.59,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Joao Pessoa Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.136389,-34.852592,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,16,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,5.16,days,0.3,0.3,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Joao Pessoa Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.136389,-34.852592,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,3.15,days,0.4,0.4,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Joao Pessoa Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.136389,-34.852592,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,28,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,2.61,days,0.64,0.64,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Joao Pessoa Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.136389,-34.852592,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,3.48,days,0.32,0.32,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Joao Pessoa Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.136389,-34.852592,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,19.86,days,0.7,0.7,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Joao Pessoa Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.136389,-34.852592,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,16,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,12.49,days,0.49,0.49,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Joao Pessoa Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.136389,-34.852592,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,7.2,days,0.46,0.46,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Joao Pessoa Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.136389,-34.852592,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,28,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,6.12,days,0.72,0.72,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Joao Pessoa Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.136389,-34.852592,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,5.26,days,0.35,0.35,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Joao Pessoa Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.136389,-34.852592,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,5.95,days,0.74,0.74,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Joao Pessoa Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.136389,-34.852592,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,16,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,3.25,days,0.5,0.5,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Joao Pessoa Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.136389,-34.852592,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,2.16,days,0.69,0.69,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Joao Pessoa Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.136389,-34.852592,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,28,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,2.69,days,0.27,0.27,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Joao Pessoa Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.136389,-34.852592,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,1.5,days,0.39,0.39,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Joao Pessoa Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.136389,-34.852592,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,25.81,days,0.7,0.7,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Joao Pessoa Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.136389,-34.852592,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,16,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,estimated using table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,15.74,days,0.49,0.49,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Joao Pessoa Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.136389,-34.852592,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,estimated using table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,9.36,days,0.46,0.46,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Joao Pessoa Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.136389,-34.852592,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,28,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,estimated using table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,8.81,days,0.72,0.72,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Joao Pessoa Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.136389,-34.852592,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,estimated using table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,6.76,days,0.35,0.35,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Joao Pessoa Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.136389,-34.852592,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,estimated using table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX5831,fecundity,mean lifetime eggs individual-1,1.46,eggs individual-1,0.7,0.7,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Patos Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.044444,-37.271111,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals (n=100) multiplied by 0.5 to give an assumed sex ratio of 50:50,TRUE,01/01/2016
NA,PHX5831,fecundity,mean lifetime eggs individual-1,126,eggs individual-1,23.3,23.3,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Patos Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.044444,-37.271111,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals (n=100) multiplied by 0.5 to give an assumed sex ratio of 50:50,TRUE,01/01/2016
NA,PHX327,survival,percentage surviving life stage,3.11,percent,1.33,1.33,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 6,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from n=300 at the start of the experiment,TRUE,01/01/1990
NA,PHX327,survival,percentage surviving life stage,91.8,percent,3.05,3.05,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,275,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 6,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from n=300 at the start of the experiment,TRUE,01/01/1990
NA,PHX327,survival,percentage surviving life stage,62.58,percent,2.49,2.49,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,188,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 6,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from n=300 at the start of the experiment,TRUE,01/01/1990
NA,PHX327,survival,percentage surviving life stage,89.76,percent,3.75,3.75,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,269,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 6,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from n=300 at the start of the experiment,TRUE,01/01/1990
NA,PHX327,survival,percentage surviving life stage,66.34,percent,2.74,2.74,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,199,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 6,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from n=300 at the start of the experiment,TRUE,01/01/1990
NA,PHX327,survival,percentage surviving life stage,59.14,percent,3.08,3.08,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,177,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 6,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from n=300 at the start of the experiment,TRUE,01/01/1990
NA,PHX3219,body size,mean head width,0.28,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean head width,0.26,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean head width,0.26,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean head width,0.26,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean head width,0.25,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean head width,0.23,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean head width,0.47,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean head width,0.46,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean head width,0.46,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean head width,0.46,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean head width,0.45,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean head width,0.44,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean head width,0.75,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean head width,0.74,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean head width,0.71,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean head width,0.72,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean head width,0.69,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean head width,0.67,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean head width,0.98,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean head width,0.99,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean head width,0.97,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean head width,0.93,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean head width,0.93,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean head width,0.92,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean body length,3.19,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean body length,3.19,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean body length,3.06,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean body length,2.92,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean body length,2.79,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean body length,2.8,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean body length,4.43,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean body length,4.33,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean body length,4.34,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean body length,4.39,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean body length,4.36,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean body length,4.3,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean body length,6.57,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean body length,6.47,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean body length,6.41,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean body length,6.44,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean body length,6.39,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean body length,6.12,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean wet mass,0.74,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean wet mass,0.59,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean wet mass,0.56,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean wet mass,0.49,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean wet mass,0.46,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean wet mass,0.42,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean wet mass,1.6,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean wet mass,1.64,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean wet mass,1.36,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean wet mass,1.34,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean wet mass,1.25,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean wet mass,1.09,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean wet mass,4.29,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean wet mass,4.21,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean wet mass,4.01,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean wet mass,3.72,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean wet mass,3.04,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean wet mass,2.35,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean wet mass,5.98,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean wet mass,5.76,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean wet mass,4.24,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean wet mass,4.03,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean wet mass,3.95,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean wet mass,3.2,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean wet mass,2.07,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean wet mass,1.59,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean wet mass,1.19,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean wet mass,2.07,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean wet mass,1.65,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean wet mass,1.29,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean wet mass,1.11,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean wet mass,0.76,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean wet mass,1.2,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX3219,body size,mean wet mass,0.93,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,field,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,NA,survival,proportion surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,98,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,95,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,99,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,99,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,99,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,85,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,98,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,88,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,99,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,95,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,98,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,71,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,99,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,96,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,87,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,96,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,94,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,96,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,50,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,97,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,94,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,86,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,95,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,94,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,88,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,94,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,90,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,23,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,85,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,22,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,89,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,23,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,92,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,74,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,94,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,98,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,99,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,99,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,88,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,88,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,98,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,99,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,96,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,99,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,99,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,54,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,82,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,98,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,97,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,94,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,97,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,95,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,37,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,76,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,97,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,96,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,94,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,96,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,92,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,1,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,72,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,95,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,95,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,92,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,90,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,23,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,61,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 13,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,93,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,93,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,98,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,96,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,96,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,80,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,19,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,93,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,93,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,98,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,96,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,88,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,69,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,1,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,93,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,93,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,98,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,96,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,88,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,64,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,92,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,92,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,97,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,96,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,87,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,53,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,92,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,89,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,23,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,92,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,88,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,23,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,74,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,18,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,83,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,92,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,97,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,97,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,94,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,83,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,12,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,83,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,92,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,94,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,96,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,90,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,83,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,1,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,83,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,92,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,94,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,96,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,90,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,83,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,83,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,92,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,88,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,90,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,90,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,51,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,79,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,21,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,87,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,23,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,83,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,22,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,90,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,23,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,78,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,21,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),FALSE,01/01/1999
NA,NA,survival,proportion surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 14,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),FALSE,01/01/1999
NA,PHX5831,fecundity,mean lifetime eggs individual-1,181.3,eggs individual-1,43.1,43.1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Patos Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.044444,-37.271111,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals (n=100) multiplied by 0.5 to give an assumed sex ratio of 50:50,TRUE,01/01/2016
NA,PHX5831,fecundity,mean lifetime eggs individual-1,52.92,eggs individual-1,10.8,10.8,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Patos Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.044444,-37.271111,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals (n=100) multiplied by 0.5 to give an assumed sex ratio of 50:50,TRUE,01/01/2016
NA,PHX5831,fecundity,mean lifetime eggs individual-1,22.27,eggs individual-1,8.73,8.73,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Patos Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.044444,-37.271111,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals (n=100) multiplied by 0.5 to give an assumed sex ratio of 50:50,TRUE,01/01/2016
NA,PHX58411,longevity,mean duration of life stage,10.22,days,2.73,2.73,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Patos Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.044444,-37.271111,Aedes aegypti,Yellow fever mosquito,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX58411,longevity,mean duration of life stage,26.56,days,1.56,1.56,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Patos Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.044444,-37.271111,Aedes aegypti,Yellow fever mosquito,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX58411,longevity,mean duration of life stage,27.45,days,2.05,2.05,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Patos Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.044444,-37.271111,Aedes aegypti,Yellow fever mosquito,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX58411,longevity,mean duration of life stage,22.64,days,2.11,2.11,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Patos Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.044444,-37.271111,Aedes aegypti,Yellow fever mosquito,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX58411,longevity,mean duration of life stage,9.49,days,3.77,3.77,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Patos Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.044444,-37.271111,Aedes aegypti,Yellow fever mosquito,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX58411,longevity,mean duration of life stage,10.86,days,1.38,1.38,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Patos Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.044444,-37.271111,Aedes aegypti,Yellow fever mosquito,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,16,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX58411,longevity,mean duration of life stage,27.59,days,4.16,4.16,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Patos Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.044444,-37.271111,Aedes aegypti,Yellow fever mosquito,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX58411,longevity,mean duration of life stage,31.05,days,3.92,3.92,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Patos Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.044444,-37.271111,Aedes aegypti,Yellow fever mosquito,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,28,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX58411,longevity,mean duration of life stage,23.54,days,1.19,1.19,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Patos Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.044444,-37.271111,Aedes aegypti,Yellow fever mosquito,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX58411,longevity,mean duration of life stage,10.53,days,2.13,2.13,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Patos Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.044444,-37.271111,Aedes aegypti,Yellow fever mosquito,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,38.82,days,1.46,1.46,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Patos Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.044444,-37.271111,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,16,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,23.42,days,1.46,1.46,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Patos Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.044444,-37.271111,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,13.08,days,0.6,0.6,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Patos Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.044444,-37.271111,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,28,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,13.24,days,0.46,0.46,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Patos Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.044444,-37.271111,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,9.33,days,0.9,0.9,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Patos Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.044444,-37.271111,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,11.5,days,0.66,0.66,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Patos Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.044444,-37.271111,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,16,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,7.92,days,0.65,0.65,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Patos Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.044444,-37.271111,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,3.32,days,0.48,0.48,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Patos Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.044444,-37.271111,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,28,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,4.23,days,0.43,0.43,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Patos Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.044444,-37.271111,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,2.59,days,0.36,0.36,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Patos Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.044444,-37.271111,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,20.19,days,1.01,1.01,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Patos Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.044444,-37.271111,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,16,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,12.12,days,0.49,0.49,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Patos Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.044444,-37.271111,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,7.25,days,0.3,0.3,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Patos Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.044444,-37.271111,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,28,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,7.12,days,0.38,0.38,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Patos Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.044444,-37.271111,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,5.43,days,0.97,0.97,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Patos Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.044444,-37.271111,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,7.06,days,1.61,1.61,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Patos Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.044444,-37.271111,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,16,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,3.38,days,0.91,0.91,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Patos Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.044444,-37.271111,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,2.51,days,0.34,0.34,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Patos Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.044444,-37.271111,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,28,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,1.88,days,0.16,0.16,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Patos Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.044444,-37.271111,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,1.3,days,0.18,0.18,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Patos Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.044444,-37.271111,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,27.25,days,1.01,1.01,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Patos Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.044444,-37.271111,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,16,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,estimated using table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,15.5,days,0.49,0.49,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Patos Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.044444,-37.271111,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,estimated using table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,9.76,days,0.3,0.3,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Patos Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.044444,-37.271111,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,28,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,estimated using table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,9,days,0.38,0.38,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Patos Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.044444,-37.271111,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,estimated using table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,PHX581,development time,mean duration of life stage,6.73,days,0.97,0.97,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Patos Paraiba Brazil,field (F1),01/01/2012,4,decimal,-7.044444,-37.271111,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,estimated using table 3,Marinho et al. 2016. Effects of temperature on the life cycle expansion and dispersion of Aedes aegypti (Diptera: Culicidae) in three cities in Paraiba Brazil. J Vec. Ecol. 41:1,10.1111/jvec.12187,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the initial number of individuals at the start of the experiment,TRUE,01/01/2016
NA,MAR007,development time,mean duration of incubation period,2.45,days,0.52,0.52,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,400,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,egg,NA,8,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2019
NA,MAR007,development time,mean duration of incubation period,1.35,days,0.08,0.08,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,400,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,egg,NA,13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2019
NA,MAR007,development time,mean duration of incubation period,1.07,days,0.04,0.04,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,400,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,egg,NA,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2019
NA,MAR007,development time,mean duration of incubation period,1.08,days,0.04,0.04,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,400,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,egg,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2019
NA,MAR007,development time,mean duration of incubation period,1.04,days,0.04,0.04,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,400,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,egg,NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2019
NA,MAR008,development time,mean duration of life stage,9.47,days,0.32,0.32,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,L1,NA,13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2019
NA,MAR008,development time,mean duration of life stage,5.71,days,0.2,0.2,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,L1,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2019
NA,MAR008,development time,mean duration of life stage,3.66,days,0.16,0.16,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,L1,NA,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2019
NA,MAR008,development time,mean duration of life stage,2.72,days,0.12,0.12,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,L1,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2019
NA,MAR008,development time,mean duration of life stage,2.78,days,0.14,0.14,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,L1,NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2019
NA,MAR009,development time,mean duration of life stage,6.53,days,0.18,0.18,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,L2,NA,13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,NA,TRUE,01/01/2019
NA,MAR009,development time,mean duration of life stage,2.49,days,0.18,0.18,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,L2,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,NA,TRUE,01/01/2019
NA,MAR009,development time,mean duration of life stage,1.56,days,0.1,0.1,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,L2,NA,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,NA,TRUE,01/01/2019
NA,MAR009,development time,mean duration of life stage,1.47,days,0.12,0.12,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,L2,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,NA,TRUE,01/01/2019
NA,MAR009,development time,mean duration of life stage,1.84,days,0.14,0.14,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,L2,NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,NA,TRUE,01/01/2019
NA,MAR010,development time,mean duration of life stage,7.12,days,0.16,0.16,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,L3,NA,13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,NA,TRUE,01/01/2019
NA,MAR010,development time,mean duration of life stage,3.42,days,0.32,0.32,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,L3,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,NA,TRUE,01/01/2019
NA,MAR010,development time,mean duration of life stage,2.01,days,0.1,0.1,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,L3,NA,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,NA,TRUE,01/01/2019
NA,MAR010,development time,mean duration of life stage,1.57,days,0.16,0.16,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,L3,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,NA,TRUE,01/01/2019
NA,MAR010,development time,mean duration of life stage,1.8,days,0.16,0.16,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,L3,NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,NA,TRUE,01/01/2019
NA,MAR011,development time,mean duration of life stage,14.58,days,0.28,0.28,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,L4,NA,13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,NA,TRUE,01/01/2019
NA,MAR011,development time,mean duration of life stage,6.93,days,0.18,0.18,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,L4,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,NA,TRUE,01/01/2019
NA,MAR011,development time,mean duration of life stage,4.52,days,0.2,0.2,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,L4,NA,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,NA,TRUE,01/01/2019
NA,MAR011,development time,mean duration of life stage,4.27,days,0.2,0.2,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,L4,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,NA,TRUE,01/01/2019
NA,MAR011,development time,mean duration of life stage,4.19,days,0.2,0.2,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,L4,NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,NA,TRUE,01/01/2019
NA,MAR012,development time,mean duration of life stage,10.31,days,0.08,0.08,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,pupal,NA,13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,NA,TRUE,01/01/2019
NA,MAR012,development time,mean duration of life stage,4.19,days,0.08,0.08,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,pupal,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,NA,TRUE,01/01/2019
NA,MAR012,development time,mean duration of life stage,3,days,0.08,0.08,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,pupal,NA,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,NA,TRUE,01/01/2019
NA,MAR012,development time,mean duration of life stage,2.07,days,0.08,0.08,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,pupal,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,NA,TRUE,01/01/2019
NA,MAR012,development time,mean duration of life stage,1.82,days,0.12,0.12,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/04/2016,4,decimal,46.033333,11.533333,Aedes koreicus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,koreicus,pupal,NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2019. First report of the infuence of temperature on the bionomics and population dynamics of Aedes koreicus a new invasive alien species in Europe. Parasite Vectors 12,10.1186/s13071-019-3772-5,NA,NA,Wills McGraw,willsmcgraw21@vt.edu,NA,TRUE,01/01/2019
NA,LC41,development time,mean duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,10,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC41,development time,mean duration of life stage,2,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC41,development time,mean duration of life stage,3.8,days,0.4,0.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,76,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC41,development time,mean duration of life stage,3.2,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,68,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC41,development time,mean duration of life stage,37.4,days,0.7,0.7,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,10,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC41,development time,mean duration of life stage,5.8,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC41,development time,mean duration of life stage,2.5,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC41,development time,mean duration of life stage,2,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC41,development time,mean duration of life stage,0,days,NA,NA,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,10,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC41,development time,mean duration of life stage,5.1,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC41,development time,mean duration of life stage,2,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC41,development time,mean duration of life stage,1.1,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC41,development time,mean duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,10,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC41,development time,mean duration of life stage,7,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC41,development time,mean duration of life stage,2.4,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC41,development time,mean duration of life stage,1.4,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC41,development time,mean duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,10,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC41,development time,mean duration of life stage,16.7,days,0.4,0.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC41,development time,mean duration of life stage,5,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC41,development time,mean duration of life stage,3.5,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC41,development time,mean duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,10,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC41,development time,mean duration of life stage,10.7,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC41,development time,mean duration of life stage,3.5,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC41,development time,mean duration of life stage,1.9,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC41,development time,mean duration of life stage,0,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,10,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC41,development time,mean duration of life stage,36.8,days,0.5,0.5,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC41,development time,mean duration of life stage,12.7,days,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC41,development time,mean duration of life stage,7.6,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Trento Italy,field,01/01/2018,2,decimal,46.074879,11.1194085,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,NA,TRUE,01/01/2020
NA,LC41,development time,mean duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,10,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment. Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC41,development time,mean duration of life stage,2,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,10,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment. Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC41,development time,mean duration of life stage,7.4,days,1.8,1.8,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment. Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC41,development time,mean duration of life stage,4.5,days,0.7,0.7,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment. Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC41,development time,mean duration of life stage,6.7,days,0.7,0.7,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment. Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC41,development time,mean duration of life stage,5.6,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment. Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC41,development time,mean duration of life stage,2.1,days,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment. Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC41,development time,mean duration of life stage,1.4,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment. Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC41,development time,mean duration of life stage,3.3,days,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment. Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC41,development time,mean duration of life stage,1.2,days,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment. Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC41,development time,mean duration of life stage,1.3,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment. Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC41,development time,mean duration of life stage,4.6,days,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment. Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC41,development time,mean duration of life stage,1.2,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment. Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC41,development time,mean duration of life stage,1.4,days,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment. Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC41,development time,mean duration of life stage,13.4,days,0.8,0.8,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment. Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC41,development time,mean duration of life stage,3.3,days,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment. Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC41,development time,mean duration of life stage,3,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment. Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC41,development time,mean duration of life stage,8.7,days,0.6,0.6,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment. Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC41,development time,mean duration of life stage,2.7,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment. Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC41,development time,mean duration of life stage,1.9,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment. Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC41,development time,mean duration of life stage,35,days,0.9,0.9,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment. Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC41,development time,mean duration of life stage,10.4,days,0.7,0.7,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment. Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,LC41,development time,mean duration of life stage,8.8,days,0.6,0.6,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,La Reunion Island France,field,01/01/2018,2,decimal,-21.11,55.53,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Marini et al. 2020. Influence of temperature on the life-cycle dynamics of Aedes albopictus population established at temperate latitudes: A laboratory experiment. Insects. 11: 1-17.,10.3390/insects11110808,NA,NA,Lauren Chapman,phuxly@gmail.com,interactor1number is the number of individuals at the start of the experiment. Data are from Delatte et al. doi: 10.1603/033.046.0105,TRUE,01/01/2020
NA,MON001,development time,mean duration of life stage,2,days,0.35,0.35,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Recife Brazil,colony,01/10/2004,4,decimal,-8.055263657,-34.87605208,Aedes albopictus,NA,NA,NA,42,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Monteiro et al. 2007. Eclosion rate development and survivorship of Aedes albopictus (Skuse) (Diptera: Culicidae) under different water temperatures. Neotropical Entomology. 36:6,10.1590/S1519-566X2007000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=45),TRUE,01/01/2007
NA,MON001,development time,mean duration of life stage,1.7,days,0.46,0.46,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Recife Brazil,colony,01/10/2004,4,decimal,-8.055263657,-34.87605208,Aedes albopictus,NA,NA,NA,42,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Monteiro et al. 2007. Eclosion rate development and survivorship of Aedes albopictus (Skuse) (Diptera: Culicidae) under different water temperatures. Neotropical Entomology. 36:6,10.1590/S1519-566X2007000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=45),TRUE,01/01/2007
NA,MON001,development time,mean duration of life stage,2.3,days,0.95,0.95,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Recife Brazil,colony,01/10/2004,4,decimal,-8.055263657,-34.87605208,Aedes albopictus,NA,NA,NA,39,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Monteiro et al. 2007. Eclosion rate development and survivorship of Aedes albopictus (Skuse) (Diptera: Culicidae) under different water temperatures. Neotropical Entomology. 36:6,10.1590/S1519-566X2007000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=45),TRUE,01/01/2007
NA,MON001,development time,mean duration of life stage,1.4,days,1.4,1.4,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Recife Brazil,colony,01/10/2004,4,decimal,-8.055263657,-34.87605208,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Monteiro et al. 2007. Eclosion rate development and survivorship of Aedes albopictus (Skuse) (Diptera: Culicidae) under different water temperatures. Neotropical Entomology. 36:6,10.1590/S1519-566X2007000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=45),TRUE,01/01/2007
NA,MON001,development time,mean duration of life stage,0.9,days,0.9,0.9,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Recife Brazil,colony,01/10/2004,4,decimal,-8.055263657,-34.87605208,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Monteiro et al. 2007. Eclosion rate development and survivorship of Aedes albopictus (Skuse) (Diptera: Culicidae) under different water temperatures. Neotropical Entomology. 36:6,10.1590/S1519-566X2007000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=45),TRUE,01/01/2007
NA,MON001,development time,mean duration of life stage,2.7,days,2.7,2.7,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Recife Brazil,colony,01/10/2004,4,decimal,-8.055263657,-34.87605208,Aedes albopictus,NA,NA,NA,36,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Monteiro et al. 2007. Eclosion rate development and survivorship of Aedes albopictus (Skuse) (Diptera: Culicidae) under different water temperatures. Neotropical Entomology. 36:6,10.1590/S1519-566X2007000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=45),TRUE,01/01/2007
NA,MON001,development time,mean duration of life stage,2.1,days,0.71,0.71,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Recife Brazil,colony,01/10/2004,4,decimal,-8.055263657,-34.87605208,Aedes albopictus,NA,NA,NA,39,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Monteiro et al. 2007. Eclosion rate development and survivorship of Aedes albopictus (Skuse) (Diptera: Culicidae) under different water temperatures. Neotropical Entomology. 36:6,10.1590/S1519-566X2007000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=45),TRUE,01/01/2007
NA,MON001,development time,mean duration of life stage,2.2,days,0.79,0.79,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Recife Brazil,colony,01/10/2004,4,decimal,-8.055263657,-34.87605208,Aedes albopictus,NA,NA,NA,39,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Monteiro et al. 2007. Eclosion rate development and survivorship of Aedes albopictus (Skuse) (Diptera: Culicidae) under different water temperatures. Neotropical Entomology. 36:6,10.1590/S1519-566X2007000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=45),TRUE,01/01/2007
NA,MON001,development time,mean duration of life stage,4.5,days,2.25,2.25,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Recife Brazil,colony,01/10/2004,4,decimal,-8.055263657,-34.87605208,Aedes albopictus,NA,NA,NA,33,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Monteiro et al. 2007. Eclosion rate development and survivorship of Aedes albopictus (Skuse) (Diptera: Culicidae) under different water temperatures. Neotropical Entomology. 36:6,10.1590/S1519-566X2007000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=45),TRUE,01/01/2007
NA,MON001,development time,mean duration of life stage,3.9,days,0.72,0.72,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Recife Brazil,colony,01/10/2004,4,decimal,-8.055263657,-34.87605208,Aedes albopictus,NA,NA,NA,37,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Monteiro et al. 2007. Eclosion rate development and survivorship of Aedes albopictus (Skuse) (Diptera: Culicidae) under different water temperatures. Neotropical Entomology. 36:6,10.1590/S1519-566X2007000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=45),TRUE,01/01/2007
NA,MON001,development time,mean duration of life stage,4.1,days,1.41,1.41,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Recife Brazil,colony,01/10/2004,4,decimal,-8.055263657,-34.87605208,Aedes albopictus,NA,NA,NA,37,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Monteiro et al. 2007. Eclosion rate development and survivorship of Aedes albopictus (Skuse) (Diptera: Culicidae) under different water temperatures. Neotropical Entomology. 36:6,10.1590/S1519-566X2007000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=45),TRUE,01/01/2007
NA,MON001,development time,mean duration of life stage,2.5,days,0,0,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Recife Brazil,colony,01/10/2004,4,decimal,-8.055263657,-34.87605208,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Monteiro et al. 2007. Eclosion rate development and survivorship of Aedes albopictus (Skuse) (Diptera: Culicidae) under different water temperatures. Neotropical Entomology. 36:6,10.1590/S1519-566X2007000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=45),TRUE,01/01/2007
NA,MON001,development time,mean duration of life stage,9.3,days,2.78,2.78,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Recife Brazil,colony,01/10/2004,4,decimal,-8.055263657,-34.87605208,Aedes albopictus,NA,NA,NA,37,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Monteiro et al. 2007. Eclosion rate development and survivorship of Aedes albopictus (Skuse) (Diptera: Culicidae) under different water temperatures. Neotropical Entomology. 36:6,10.1590/S1519-566X2007000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=45),TRUE,01/01/2007
NA,MON001,development time,mean duration of life stage,8.9,days,3.05,3.05,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Recife Brazil,colony,01/10/2004,4,decimal,-8.055263657,-34.87605208,Aedes albopictus,NA,NA,NA,37,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Monteiro et al. 2007. Eclosion rate development and survivorship of Aedes albopictus (Skuse) (Diptera: Culicidae) under different water temperatures. Neotropical Entomology. 36:6,10.1590/S1519-566X2007000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=45),TRUE,01/01/2007
NA,MON001,development time,mean duration of life stage,12,days,4.95,4.95,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Recife Brazil,colony,01/10/2004,4,decimal,-8.055263657,-34.87605208,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Monteiro et al. 2007. Eclosion rate development and survivorship of Aedes albopictus (Skuse) (Diptera: Culicidae) under different water temperatures. Neotropical Entomology. 36:6,10.1590/S1519-566X2007000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=45),TRUE,01/01/2007
NA,MON001,development time,mean duration of life stage,2.5,days,2.5,2.5,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Recife Brazil,colony,01/10/2004,4,decimal,-8.055263657,-34.87605208,Aedes albopictus,NA,NA,NA,37,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,25,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Monteiro et al. 2007. Eclosion rate development and survivorship of Aedes albopictus (Skuse) (Diptera: Culicidae) under different water temperatures. Neotropical Entomology. 36:6,10.1590/S1519-566X2007000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=45),TRUE,01/01/2007
NA,MON001,development time,mean duration of life stage,1.7,days,1.7,1.7,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Recife Brazil,colony,01/10/2004,4,decimal,-8.055263657,-34.87605208,Aedes albopictus,NA,NA,NA,37,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,30,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Monteiro et al. 2007. Eclosion rate development and survivorship of Aedes albopictus (Skuse) (Diptera: Culicidae) under different water temperatures. Neotropical Entomology. 36:6,10.1590/S1519-566X2007000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=45),TRUE,01/01/2007
NA,MON001,development time,mean duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Recife Brazil,colony,01/10/2004,4,decimal,-8.055263657,-34.87605208,Aedes albopictus,NA,NA,NA,45,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,35,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Monteiro et al. 2007. Eclosion rate development and survivorship of Aedes albopictus (Skuse) (Diptera: Culicidae) under different water temperatures. Neotropical Entomology. 36:6,10.1590/S1519-566X2007000600021,NA,NA,Paul Huxley,phuxly@gmail.com,trait value was set to zero because complete juvenile mortality occured at this temperature. interactor1number is the number of individuals that did not survive life stage from the initial number of individuals at the start of the experiment (n=45),TRUE,01/01/2007
NA,SSA102,development time,mean life stage duration,12.54,days,0.9,0.9,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2004
NA,SSA102,development time,mean life stage duration,12.81,days,0.94,0.94,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2004
NA,SSA102,development time,mean life stage duration,11.33,days,0.8,0.8,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,37,Celsius,NA,28,Celsius,repeatedly placed larvae of consecutive generations under this temperature,44.5,Celsius,10,NA,minutes,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2004
NA,SSA102,development time,mean life stage duration,12.22,days,0.89,0.89,SD,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Puna Maharashtra India,colony,01/01/1995,1,decimal,18.520278,73.856667,Aedes aegypti,NA,whole,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,37,Celsius,NA,28,Celsius,repeatedly placed larvae of consecutive generations under this temperature,44.5,Celsius,10,NA,minutes,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Mourya et al. 2004. Effect of temperature stress on immature stages and susceptibility of Aedes aegypti mosquitoes to Chikungunya virus. Am. J. Trop. Med. Hyg. 70:4,10.4269/ajtmh.2004.70.346,NA,NA,Sean Sorek,sssorek1@gmail.com,NA,TRUE,01/01/2004
NA,MUL002,development time,mean number of days required for 50% (PT50) pupation as a function of larval food quantity - competitor density (secondstressor) - and temperature,25.3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,3,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),1,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,male,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,10,Aedes to 20 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 3,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL002,development time,mean number of days required for 50% (PT50) pupation as a function of larval food quantity - competitor density (secondstressor) - and temperature,23.1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,3,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),2,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,male,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,15,Aedes to 15 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 3,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL002,development time,mean number of days required for 50% (PT50) pupation as a function of larval food quantity - competitor density (secondstressor) - and temperature,23.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,3,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),3,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,male,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,20,Aedes to 10 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 3,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL002,development time,mean number of days required for 50% (PT50) pupation as a function of larval food quantity - competitor density (secondstressor) - and temperature,24.7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,3,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),4,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,male,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,30,Aedes to 0 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 3,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL002,development time,mean number of days required for 50% (PT50) pupation as a function of larval food quantity - competitor density (secondstressor) - and temperature,23.7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,6,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),1,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,male,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,10,Aedes to 20 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 3,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL002,development time,mean number of days required for 50% (PT50) pupation as a function of larval food quantity - competitor density (secondstressor) - and temperature,24.4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,6,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),2,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,male,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,15,Aedes to 15 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 3,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL002,development time,mean number of days required for 50% (PT50) pupation as a function of larval food quantity - competitor density (secondstressor) - and temperature,23.1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,6,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),3,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,male,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,20,Aedes to 10 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 3,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL002,development time,mean number of days required for 50% (PT50) pupation as a function of larval food quantity - competitor density (secondstressor) - and temperature,24.6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,6,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),4,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,male,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,30,Aedes to 0 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 3,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL002,development time,mean number of days required for 50% (PT50) pupation as a function of larval food quantity - competitor density (secondstressor) - and temperature,9.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,3,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),1,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,10,Aedes to 20 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 3,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL002,development time,mean number of days required for 50% (PT50) pupation as a function of larval food quantity - competitor density (secondstressor) - and temperature,10.4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,3,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),2,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,15,Aedes to 15 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 3,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL002,development time,mean number of days required for 50% (PT50) pupation as a function of larval food quantity - competitor density (secondstressor) - and temperature,10.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,3,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),3,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,20,Aedes to 10 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 3,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL002,development time,mean number of days required for 50% (PT50) pupation as a function of larval food quantity - competitor density (secondstressor) - and temperature,11.8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,3,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),4,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,30,Aedes to 0 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 3,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL002,development time,mean number of days required for 50% (PT50) pupation as a function of larval food quantity - competitor density (secondstressor) - and temperature,9.8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,6,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),1,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,10,Aedes to 20 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 3,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL002,development time,mean number of days required for 50% (PT50) pupation as a function of larval food quantity - competitor density (secondstressor) - and temperature,9.8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,6,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),2,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,15,Aedes to 15 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 3,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL002,development time,mean number of days required for 50% (PT50) pupation as a function of larval food quantity - competitor density (secondstressor) - and temperature,10.3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,6,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),3,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,20,Aedes to 10 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 3,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL002,development time,mean number of days required for 50% (PT50) pupation as a function of larval food quantity - competitor density (secondstressor) - and temperature,9.8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,6,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),4,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,30,Aedes to 0 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 3,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL002,development time,mean number of days required for 50% (PT50) pupation as a function of larval food quantity - competitor density (secondstressor) - and temperature,6.3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,3,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),1,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,male,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,10,Aedes to 20 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 3,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL002,development time,mean number of days required for 50% (PT50) pupation as a function of larval food quantity - competitor density (secondstressor) - and temperature,5.7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,3,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),2,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,male,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,15,Aedes to 15 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 3,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL002,development time,mean number of days required for 50% (PT50) pupation as a function of larval food quantity - competitor density (secondstressor) - and temperature,5.7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,3,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),3,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,male,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,20,Aedes to 10 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 3,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL002,development time,mean number of days required for 50% (PT50) pupation as a function of larval food quantity - competitor density (secondstressor) - and temperature,6.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,3,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),4,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,male,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,30,Aedes to 0 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 3,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL002,development time,mean number of days required for 50% (PT50) pupation as a function of larval food quantity - competitor density (secondstressor) - and temperature,8.6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,6,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),1,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,male,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,10,Aedes to 20 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 3,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL002,development time,mean number of days required for 50% (PT50) pupation as a function of larval food quantity - competitor density (secondstressor) - and temperature,8.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,6,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),2,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,male,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,15,Aedes to 15 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 3,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL002,development time,mean number of days required for 50% (PT50) pupation as a function of larval food quantity - competitor density (secondstressor) - and temperature,8.4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,6,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),3,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,male,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,20,Aedes to 10 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 3,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL002,development time,mean number of days required for 50% (PT50) pupation as a function of larval food quantity - competitor density (secondstressor) - and temperature,7.3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,6,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),4,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,male,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,30,Aedes to 0 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 3,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL002,development time,mean number of days required for 50% (PT50) pupation as a function of larval food quantity - competitor density (secondstressor) - and temperature,25.7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,3,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),1,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,female,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,10,Aedes to 20 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 3,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL002,development time,mean number of days required for 50% (PT50) pupation as a function of larval food quantity - competitor density (secondstressor) - and temperature,26.9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,3,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),2,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,female,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,15,Aedes to 15 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 3,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL002,development time,mean number of days required for 50% (PT50) pupation as a function of larval food quantity - competitor density (secondstressor) - and temperature,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,3,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),3,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,female,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,20,Aedes to 10 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 3,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,NA,fecundity,mean lifetime eggs per individual,98.2,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 18,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fecundity,mean lifetime eggs per individual,109.5,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 18,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fecundity,mean lifetime eggs per individual,11.5,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 18,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fecundity,mean lifetime eggs per individual,81.6,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 18,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fecundity,mean lifetime eggs per individual,126.5,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 18,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fecundity,mean lifetime eggs per individual,68.8,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 18,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fertility,percentage of lifetime eggs that hatched within 24 hrs of being submerged in water,76.1,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 18,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fertility,percentage of lifetime eggs that hatched within 24 hrs of being submerged in water,88.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 18,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fertility,percentage of lifetime eggs that hatched within 24 hrs of being submerged in water,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 18,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fertility,percentage of lifetime eggs that hatched within 24 hrs of being submerged in water,61.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 18,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fertility,percentage of lifetime eggs that hatched within 24 hrs of being submerged in water,89,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 18,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fertility,percentage of lifetime eggs that hatched within 24 hrs of being submerged in water,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 18,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fecundity,mean lifetime eggs per individual,99.2,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 17,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fecundity,mean lifetime eggs per individual,128.5,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 17,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fecundity,mean lifetime eggs per individual,79.2,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 17,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fecundity,mean lifetime eggs per individual,81,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 17,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fecundity,mean lifetime eggs per individual,98.7,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 17,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fecundity,mean lifetime eggs per individual,60.8,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 17,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fertility,percentage of lifetime eggs that hatched within 24 hrs of being submerged in water,92.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 17,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fertility,percentage of lifetime eggs that hatched within 24 hrs of being submerged in water,89.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 17,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fertility,percentage of lifetime eggs that hatched within 24 hrs of being submerged in water,94.4,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 17,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fertility,percentage of lifetime eggs that hatched within 24 hrs of being submerged in water,94,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 17,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fertility,percentage of lifetime eggs that hatched within 24 hrs of being submerged in water,91.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 17,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fertility,percentage of lifetime eggs that hatched within 24 hrs of being submerged in water,88.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 17,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fecundity,median lifetime eggs per individual,99,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 17,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fecundity,median lifetime eggs per individual,79,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 17,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fecundity,median lifetime eggs per individual,142,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 17,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fecundity,median lifetime eggs per individual,109,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 17,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fecundity,median lifetime eggs per individual,80.5,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 17,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fecundity,median lifetime eggs per individual,60,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 17,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fecundity,minimum lifetime eggs per individual,86,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 17,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fecundity,minimum lifetime eggs per individual,55,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 17,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fecundity,minimum lifetime eggs per individual,36,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 17,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fecundity,minimum lifetime eggs per individual,21,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 17,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fecundity,minimum lifetime eggs per individual,17,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 17,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fecundity,minimum lifetime eggs per individual,22,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 17,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fecundity,maximum lifetime eggs per individual,113,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 17,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fecundity,maximum lifetime eggs per individual,106,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 17,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fecundity,maximum lifetime eggs per individual,162,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 17,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fecundity,maximum lifetime eggs per individual,123,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 17,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fecundity,maximum lifetime eggs per individual,118,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 17,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fecundity,maximum lifetime eggs per individual,86,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 17,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fecundity,median lifetime eggs per individual,100,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 18,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fecundity,median lifetime eggs per individual,73,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 18,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fecundity,median lifetime eggs per individual,127,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 18,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fecundity,median lifetime eggs per individual,126,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 18,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fecundity,median lifetime eggs per individual,11.5,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 18,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fecundity,median lifetime eggs per individual,77,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 18,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fecundity,minimum lifetime eggs per individual,36,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 18,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fecundity,minimum lifetime eggs per individual,42,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 18,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fecundity,minimum lifetime eggs per individual,18,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 18,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fecundity,minimum lifetime eggs per individual,103,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 18,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fecundity,minimum lifetime eggs per individual,9,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 18,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fecundity,minimum lifetime eggs per individual,19,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 18,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fecundity,maximum lifetime eggs per individual,156,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 18,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fecundity,maximum lifetime eggs per individual,128,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 18,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fecundity,maximum lifetime eggs per individual,144,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 18,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fecundity,maximum lifetime eggs per individual,154,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 18,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fecundity,maximum lifetime eggs per individual,14,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 18,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,fecundity,maximum lifetime eggs per individual,99,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 18,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,MUL002,development time,mean number of days required for 50% (PT50) pupation as a function of larval food quantity - competitor density (secondstressor) - and temperature,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,3,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),4,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,female,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,30,Aedes to 0 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 3,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL002,development time,mean number of days required for 50% (PT50) pupation as a function of larval food quantity - competitor density (secondstressor) - and temperature,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,6,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),1,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,female,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,10,Aedes to 20 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 3,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL002,development time,mean number of days required for 50% (PT50) pupation as a function of larval food quantity - competitor density (secondstressor) - and temperature,22.7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,6,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),2,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,female,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,15,Aedes to 15 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 3,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL002,development time,mean number of days required for 50% (PT50) pupation as a function of larval food quantity - competitor density (secondstressor) - and temperature,27.2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,6,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),3,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,female,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,20,Aedes to 10 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 3,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL002,development time,mean number of days required for 50% (PT50) pupation as a function of larval food quantity - competitor density (secondstressor) - and temperature,25.3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,6,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),4,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,female,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,30,Aedes to 0 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 3,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL002,development time,mean number of days required for 50% (PT50) pupation as a function of larval food quantity - competitor density (secondstressor) - and temperature,11.2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,3,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),1,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,10,Aedes to 20 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 3,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL002,development time,mean number of days required for 50% (PT50) pupation as a function of larval food quantity - competitor density (secondstressor) - and temperature,13.2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,3,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),2,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,15,Aedes to 15 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 3,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,NA,longevity,mean duration of life stage as a function of larval food quantity/type and adult access to food/water,8.83,days,0.16,0.16,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet and adult access to water/sugar,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. adults given access to water only. coded here as diet 3,3,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,longevity,mean duration of life stage as a function of larval food quantity/type and adult access to food/water,22.52,days,3.12,3.12,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet and adult access to water/sugar,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. adults given access to water and sugar. coded here as diet 4,4,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,MUL002,development time,mean number of days required for 50% (PT50) pupation as a function of larval food quantity and competitor density (secondstressor) and temperature,11.7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,3,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),3,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,20,Aedes to 10 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 3,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL002,development time,mean number of days required for 50% (PT50) pupation as a function of larval food quantity and competitor density (secondstressor) and temperature,12.2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,3,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),4,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,30,Aedes to 0 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 3,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL002,development time,mean number of days required for 50% (PT50) pupation as a function of larval food quantity and competitor density (secondstressor) and temperature,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,6,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),1,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,10,Aedes to 20 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 3,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL002,development time,mean number of days required for 50% (PT50) pupation as a function of larval food quantity and competitor density (secondstressor) and temperature,10.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,6,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),2,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,15,Aedes to 15 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 3,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL002,development time,mean number of days required for 50% (PT50) pupation as a function of larval food quantity and competitor density (secondstressor) and temperature,11.2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,6,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),3,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,20,Aedes to 10 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 3,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL002,development time,mean number of days required for 50% (PT50) pupation as a function of larval food quantity and competitor density (secondstressor) and temperature,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,6,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),4,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,30,Aedes to 0 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 3,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL002,development time,mean number of days required for 50% (PT50) pupation as a function of larval food quantity and competitor density (secondstressor) and temperature,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,3,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),1,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,10,Aedes to 20 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 3,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,NA,longevity,mean duration of life stage as a function of larval food quantity/type and adult access to food/water,6.73,days,0.08,0.08,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet and adult access to water/sugar,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. adults given access to water only. coded here as diet 3,3,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,longevity,mean duration of life stage as a function of larval food quantity/type and adult access to food/water,36.63,days,2.97,2.97,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet and adult access to water/sugar,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. adults given access to water and sugar. coded here as diet 4,4,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,MUL002,development time,mean number of days required for 50% (PT50) pupation as a function of larval food quantity and competitor density (secondstressor) and temperature,6.2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,3,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),2,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,15,Aedes to 15 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 3,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL002,development time,mean number of days required for 50% (PT50) pupation as a function of larval food quantity and competitor density (secondstressor) and temperature,5.9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,3,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),3,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,20,Aedes to 10 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 3,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL002,development time,mean number of days required for 50% (PT50) pupation as a function of larval food quantity and competitor density (secondstressor) and temperature,7.7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,3,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),4,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,30,Aedes to 0 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 3,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL002,development time,mean number of days required for 50% (PT50) pupation as a function of larval food quantity and competitor density (secondstressor) and temperature,8.2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,6,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),1,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,10,Aedes to 20 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 3,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL002,development time,mean number of days required for 50% (PT50) pupation as a function of larval food quantity and competitor density (secondstressor) and temperature,9.4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,6,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),2,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,15,Aedes to 15 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 3,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL002,development time,mean number of days required for 50% (PT50) pupation as a function of larval food quantity and competitor density (secondstressor) and temperature,8.9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,6,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),3,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,20,Aedes to 10 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 3,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,MUL002,development time,mean number of days required for 50% (PT50) pupation as a function of larval food quantity and competitor density (secondstressor) and temperature,7.6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,6,mg larva-1,NA,density of Aedes vs Culex,Aedes Culex larvae (1 is 10 Aedes 20 Culex. 2 is 15 of each. 3 is 20 Aedes 10 Culex. 4 is 30 Aedes zero Culex),4,NA,Singapore,colony,01/07/2011,4,decimal,1.283333,103.833333,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,30,Aedes to 0 Culex in 600 ml rearing water,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Culex,pipiens molestus,larval,NA,NA,NA,figure 3,Muller et al. 2018. Larval superiority of Culex pipiens to Aedes albopictus in a replacement series experiment: prospects for coexistence in Germany. Parasites Vectors 11: 80,10.1186/s13071-018-2665-3,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1 originated from Singapore but the study was conducted in Germany,TRUE,01/01/2018
NA,NA,longevity,mean duration of life stage as a function of larval food quantity/type and adult access to food/water,6.91,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet and adult access to water/sugar,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. adults given access to water only. coded here as diet 3,3,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,longevity,mean duration of life stage as a function of larval food quantity/type and adult access to food/water,22.9,days,2.29,2.29,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet and adult access to water/sugar,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. adults given access to water and sugar. coded here as diet 4,4,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,MUT003,development time,days from hatch to adult eclosion,15.7,day,0.23,0.23,not reported,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Jacksonville Florida USA,field,NA,0,decimal,30.336944,-81.661389,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Muturi et al. 2011. Effect of Temperature and Insecticide Stress on Life-History Traits of Culex restuans and Aedes albopictus (Diptera: Culicidae). J. Med. Entomol. 48:2,10.1603/ME10017,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2011
NA,MUT003,development time,days from hatch to adult eclosion,9.84,day,0.16,0.16,not reported,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Jacksonville Florida USA,field,NA,0,decimal,30.336944,-81.661389,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Muturi et al. 2011. Effect of Temperature and Insecticide Stress on Life-History Traits of Culex restuans and Aedes albopictus (Diptera: Culicidae). J. Med. Entomol. 48:2,10.1603/ME10017,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2011
NA,MUT003,development time,days from hatch to adult eclosion,8.23,day,0.15,0.15,not reported,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Jacksonville Florida USA,field,NA,0,decimal,30.336944,-81.661389,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Muturi et al. 2011. Effect of Temperature and Insecticide Stress on Life-History Traits of Culex restuans and Aedes albopictus (Diptera: Culicidae). J. Med. Entomol. 48:2,10.1603/ME10017,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2011
NA,PHT04,development time,average duration of life stage,3.91,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to L4,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT04,development time,average duration of life stage,4.04,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to L4,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT04,development time,average duration of life stage,3.64,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to L4,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT04,development time,average duration of life stage,3.98,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupal,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,NA,longevity,mean duration of life stage as a function of larval food quantity/type and adult access to food/water,7.84,days,0.12,0.12,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet and adult access to water/sugar,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. adults given access to water only. coded here as diet 3,3,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,28,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,longevity,mean duration of life stage as a function of larval food quantity/type and adult access to food/water,37.23,days,4.07,4.07,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet and adult access to water/sugar,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. adults given access to water and sugar. coded here as diet 4,4,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,28,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,PHT04,development time,average duration of life stage,3.26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupal,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT04,development time,average duration of life stage,3.21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupal,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT04,development time,average duration of life stage,4.45,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to L4,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT04,development time,average duration of life stage,3.11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to L4,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT04,development time,average duration of life stage,2.57,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to L4,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT04,development time,average duration of life stage,6.34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupal,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT04,development time,average duration of life stage,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupal,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,NA,longevity,mean duration of life stage as a function of larval food quantity/type and adult access to food/water,8.63,days,0.13,0.13,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet and adult access to water/sugar,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. adults given access to water only. coded here as diet 3,3,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,longevity,mean duration of life stage as a function of larval food quantity/type and adult access to food/water,37.38,days,4.06,4.06,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet and adult access to water/sugar,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. adults given access to water and sugar. coded here as diet 4,4,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,PHT04,development time,average duration of life stage,5.04,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupal,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT04,development time,average duration of life stage,3.91,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to L4,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT04,development time,average duration of life stage,3.23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to L4,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT04,development time,average duration of life stage,3.23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to L4,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT04,development time,average duration of life stage,5.96,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupal,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT04,development time,average duration of life stage,5.04,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupal,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT04,development time,average duration of life stage,4.26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupal,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,NA,longevity,mean duration of life stage as a function of larval food quantity/type and adult access to food/water,4.56,days,0.19,0.19,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. adults provided access to water only. coded here as diet 5,5,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,longevity,mean duration of life stage as a function of larval food quantity/type and adult access to food/water,16.23,days,1.79,1.79,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. adults provided access to water and sugar. coded here as diet 6,6,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,PHT04,development time,average duration of life stage,5.53,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupal,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT04,development time,average duration of life stage,4.23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupal,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT04,development time,average duration of life stage,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupal,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT04,development time,average duration of life stage,8.85,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT04,development time,average duration of life stage,7.68,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT04,development time,average duration of life stage,6.89,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT04,development time,average duration of life stage,7.96,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,NA,longevity,mean duration of life stage as a function of larval food quantity/type and adult access to food/water,5.03,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. adults provided access to water only. coded here as diet 5,5,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,longevity,mean duration of life stage as a function of larval food quantity/type and adult access to food/water,25.67,days,2.82,2.82,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. adults provided access to water and sugar. coded here as diet 6,6,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,PHT04,development time,average duration of life stage,6.51,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT04,development time,average duration of life stage,5.62,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT04,development time,average duration of life stage,7.7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT04,development time,average duration of life stage,5.74,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT04,development time,average duration of life stage,5.4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,male,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT04,development time,average duration of life stage,4.4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to L4,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT04,development time,average duration of life stage,4.22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to L4,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,NA,longevity,mean duration of life stage as a function of larval food quantity/type and adult access to food/water,5.71,days,0.09,0.09,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. adults provided access to water only. coded here as diet 5,5,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,longevity,mean duration of life stage as a function of larval food quantity/type and adult access to food/water,18.9,days,1.62,1.62,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. adults provided access to water and sugar. coded here as diet 6,6,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,PHT04,development time,average duration of life stage,3.62,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to L4,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT04,development time,average duration of life stage,3.94,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to L4,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT04,development time,average duration of life stage,3.46,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to L4,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT04,development time,average duration of life stage,3.56,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to L4,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT04,development time,average duration of life stage,4.92,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to L4,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT04,development time,average duration of life stage,3.94,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to L4,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT04,development time,average duration of life stage,2.98,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to L4,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,NA,longevity,mean duration of life stage as a function of larval food quantity/type and adult access to food/water,5.1,days,0.08,0.08,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. adults provided access to water only. coded here as diet 5,5,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,28,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,longevity,mean duration of life stage as a function of larval food quantity/type and adult access to food/water,20.9,days,0.9,0.9,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. adults provided access to water and sugar. coded here as diet 6,6,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,28,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,PHT04,development time,average duration of life stage,7.42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupal,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT04,development time,average duration of life stage,6.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupal,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT04,development time,average duration of life stage,5.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupal,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT04,development time,average duration of life stage,6.78,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupal,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT04,development time,average duration of life stage,5.58,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupal,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT04,development time,average duration of life stage,4.68,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupal,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT04,development time,average duration of life stage,5.94,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupal,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,NA,longevity,mean duration of life stage as a function of larval food quantity/type and adult access to food/water,5.5,days,0.17,0.17,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. adults provided access to water only. coded here as diet 5,5,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,longevity,mean duration of life stage as a function of larval food quantity/type and adult access to food/water,28.43,days,1.84,1.84,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. adults provided access to water and sugar. coded here as diet 6,6,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,survival,mean percentage of juveniles surviving to pupation,89.6,percent,1.2,1.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,21,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,male,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of individuals that survived life stage from n=48 at the start of the experiment,TRUE,01/01/2019
NA,NA,survival,mean percentage of juveniles surviving to pupation,97.8,percent,1.4,1.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,43,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,male,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of individuals that survived life stage from n=53 at the start of the experiment,TRUE,01/01/2019
NA,NA,survival,mean percentage of juveniles surviving to pupation,95.8,percent,1.8,1.8,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,36,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,male,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of individuals that survived life stage from n=54 at the start of the experiment,TRUE,01/01/2019
NA,NA,survival,mean percentage of juveniles surviving to pupation,81.2,percent,4.4,4.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,male,28,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of individuals that survived life stage from n=51 at the start of the experiment,TRUE,01/01/2019
NA,NA,survival,mean percentage of juveniles surviving to pupation,72,percent,4.6,4.6,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,31,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,male,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of individuals that survived life stage from n=44 at the start of the experiment,TRUE,01/01/2019
NA,NA,survival,mean percentage of juveniles surviving to pupation,85.6,percent,5.4,5.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,male,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of individuals that survived life stage from n=46 at the start of the experiment,TRUE,01/01/2019
NA,NA,survival,mean percentage of juveniles surviving to pupation,96,percent,2.8,2.8,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,47,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,male,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of individuals that survived life stage from n=48 at the start of the experiment,TRUE,01/01/2019
NA,NA,survival,mean percentage of juveniles surviving to pupation,94,percent,3.8,3.8,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,male,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of individuals that survived life stage from n=44 at the start of the experiment,TRUE,01/01/2019
NA,NA,survival,mean percentage of juveniles surviving to pupation,95,percent,0.8,0.8,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,male,28,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of individuals that survived life stage from n=54 at the start of the experiment,TRUE,01/01/2019
NA,NA,survival,mean percentage of juveniles surviving to pupation,96,percent,1.6,1.6,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,36,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,male,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of individuals that survived life stage from n=56 at the start of the experiment,TRUE,01/01/2019
NA,NA,survival,mean percentage of juveniles surviving to adulthood,54.14,percent,4.07,4.07,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,21,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),male,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of individuals that survived life stage from n=48 at the start of the experiment,TRUE,01/01/2019
NA,NA,survival,mean percentage of juveniles surviving to adulthood,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,43,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),male,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of individuals that survived life stage from n=53 at the start of the experiment,TRUE,01/01/2019
NA,NA,survival,mean percentage of juveniles surviving to adulthood,92.44,percent,5.33,5.33,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,36,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),male,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of individuals that survived life stage from n=54 at the start of the experiment,TRUE,01/01/2019
NA,NA,survival,mean percentage of juveniles surviving to adulthood,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),male,28,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of individuals that survived life stage from n=51 at the start of the experiment,TRUE,01/01/2019
NA,NA,survival,mean percentage of juveniles surviving to adulthood,97.35,percent,2.67,2.67,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,31,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),male,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of individuals that survived life stage from n=44 at the start of the experiment,TRUE,01/01/2019
NA,NA,survival,mean percentage of juveniles surviving to adulthood,57.51,percent,8.14,8.14,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),male,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of individuals that survived life stage from n=46 at the start of the experiment,TRUE,01/01/2019
NA,NA,survival,mean percentage of juveniles surviving to adulthood,97.35,percent,2.67,2.67,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,47,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),male,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of individuals that survived life stage from n=48 at the start of the experiment,TRUE,01/01/2019
NA,NA,survival,mean percentage of juveniles surviving to adulthood,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),male,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of individuals that survived life stage from n=44 at the start of the experiment,TRUE,01/01/2019
NA,NA,survival,mean percentage of juveniles surviving to adulthood,86.55,percent,5.33,5.33,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),male,28,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of individuals that survived life stage from n=54 at the start of the experiment,TRUE,01/01/2019
NA,NA,survival,mean percentage of juveniles surviving to adulthood,86.41,percent,5.33,5.33,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,36,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),male,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of individuals that survived life stage from n=56 at the start of the experiment,TRUE,01/01/2019
NA,NA,body size,median cephalothorax length,2.19,mm,0.05,0.04,IQR,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,male,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,median cephalothorax length,2.19,mm,0.02,0.04,IQR,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,male,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,median cephalothorax length,2.11,mm,0.02,0.03,IQR,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,male,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,median cephalothorax length,2.01,mm,0.08,0.05,IQR,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,male,28,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,median cephalothorax length,1.97,mm,0.03,0.06,IQR,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,male,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,median cephalothorax length,2.18,mm,0.03,0.05,IQR,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,male,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,median cephalothorax length,2.1,mm,0.02,0.03,IQR,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,male,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,median cephalothorax length,2.07,mm,0.04,0.04,IQR,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,male,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,median cephalothorax length,2.04,mm,0.03,0.03,IQR,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,male,28,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,median cephalothorax length,1.95,mm,0.01,0.02,IQR,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,male,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,median wing length,2.67,mm,0.09,0.03,IQR,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,median wing length,2.56,mm,0.04,0.04,IQR,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,median wing length,2.42,mm,0.02,0.03,IQR,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,median wing length,2.16,mm,0.05,0.06,IQR,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,28,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,median wing length,2.02,mm,0.05,0.05,IQR,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,median wing length,2.66,mm,0.07,0.07,IQR,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,median wing length,2.61,mm,0.03,0.04,IQR,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,median wing length,2.38,mm,0.05,0.04,IQR,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,median wing length,2.22,mm,0.05,0.03,IQR,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,28,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,body size,median wing length,2.14,mm,0.04,0.03,IQR,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,sex ratio,adult sex ratio as a function of temperature and larval food type,1.3,M:F,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,both,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,the number of males was 48. the number of females was 37,TRUE,01/01/2019
NA,NA,sex ratio,adult sex ratio as a function of temperature and larval food type,1.33,M:F,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,both,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,the number of males was 53. the number of females was 40,TRUE,01/01/2019
NA,NA,sex ratio,adult sex ratio as a function of temperature and larval food type,1.5,M:F,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,both,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,the number of males was 54. the number of females was 36,TRUE,01/01/2019
NA,NA,sex ratio,adult sex ratio as a function of temperature and larval food type,1.6,M:F,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,both,28,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,the number of males was 48. the number of females was 30,TRUE,01/01/2019
NA,NA,sex ratio,adult sex ratio as a function of temperature and larval food type,2,M:F,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,both,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,the number of males was 44. the number of females was 22,TRUE,01/01/2019
NA,NA,sex ratio,adult sex ratio as a function of temperature and larval food type,1.31,M:F,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,both,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,the number of males was 46. the number of females was 35,TRUE,01/01/2019
NA,NA,sex ratio,adult sex ratio as a function of temperature and larval food type,1.04,M:F,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,both,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,the number of males was 48. the number of females was 46,TRUE,01/01/2019
NA,NA,sex ratio,adult sex ratio as a function of temperature and larval food type,0.96,M:F,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,both,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,the number of males was 44. the number of females was 46,TRUE,01/01/2019
NA,NA,sex ratio,adult sex ratio as a function of temperature and larval food type,1.35,M:F,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,both,28,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,the number of males was 54. the number of females was 40,TRUE,01/01/2019
NA,NA,sex ratio,adult sex ratio as a function of temperature and larval food type,1.4,M:F,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,both,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,the number of males was 56. the number of females was 40,TRUE,01/01/2019
NA,NA,energy metabolic reserves,glucose content per insect weight,7.14,ug mg-1,0.65,0.65,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,energy metabolic reserves,glucose content per insect weight,7.9,ug mg-1,1.5,1.5,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,energy metabolic reserves,glucose content per insect weight,8.87,ug mg-1,0.74,0.74,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,energy metabolic reserves,glucose content per insect weight,12.78,ug mg-1,2.36,2.36,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,28,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,energy metabolic reserves,glucose content per insect weight,27.96,ug mg-1,3.82,3.82,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,energy metabolic reserves,glycogen content per insect weight,3.46,ug mg-1,0.31,0.31,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,energy metabolic reserves,glycogen content per insect weight,3.73,ug mg-1,0.68,0.68,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,energy metabolic reserves,glycogen content per insect weight,2.74,ug mg-1,0.19,0.19,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,energy metabolic reserves,glycogen content per insect weight,8.68,ug mg-1,1.18,1.18,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,28,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,energy metabolic reserves,glycogen content per insect weight,29.97,ug mg-1,7.5,7.5,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,energy metabolic reserves,trehalose content per insect weight,7.53,ug mg-1,0.63,0.63,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,energy metabolic reserves,trehalose content per insect weight,8.75,ug mg-1,1.44,1.44,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,energy metabolic reserves,trehalose content per insect weight,8.27,ug mg-1,3.06,3.06,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,energy metabolic reserves,trehalose content per insect weight,9.17,ug mg-1,3.42,3.42,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,28,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,energy metabolic reserves,trehalose content per insect weight,12.38,ug mg-1,1.82,1.82,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,energy metabolic reserves,glucose content per insect weight,5.21,ug mg-1,0.4,0.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,energy metabolic reserves,glucose content per insect weight,6.48,ug mg-1,0.38,0.38,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,energy metabolic reserves,glucose content per insect weight,9.74,ug mg-1,3.61,3.61,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,energy metabolic reserves,glucose content per insect weight,9.56,ug mg-1,2.7,2.7,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,28,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,energy metabolic reserves,glucose content per insect weight,12.82,ug mg-1,2.01,2.01,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,energy metabolic reserves,glycogen content per insect weight,2.19,ug mg-1,0.24,0.24,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,energy metabolic reserves,glycogen content per insect weight,3.11,ug mg-1,0.59,0.59,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,energy metabolic reserves,glycogen content per insect weight,6.88,ug mg-1,1.32,1.32,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,energy metabolic reserves,glycogen content per insect weight,5.6,ug mg-1,0.47,0.47,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,28,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,energy metabolic reserves,glycogen content per insect weight,8.54,ug mg-1,0.91,0.91,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,energy metabolic reserves,trehalose content per insect weight,11.33,ug mg-1,1.38,1.38,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,energy metabolic reserves,trehalose content per insect weight,14.11,ug mg-1,0.68,0.68,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,energy metabolic reserves,trehalose content per insect weight,18.95,ug mg-1,2.99,2.99,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,energy metabolic reserves,trehalose content per insect weight,15,ug mg-1,2.08,2.08,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,28,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,energy metabolic reserves,trehalose content per insect weight,16.39,ug mg-1,4.58,4.58,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,mating capacity,mean percentage of inseminated females by a single male,14.93,percent,5.07,5.07,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of female inseminated out of n=40 tested,TRUE,01/01/2019
NA,NA,mating capacity,mean percentage of inseminated females by a single male,20,percent,4.08,4.08,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of female inseminated out of n=40 tested,TRUE,01/01/2019
NA,NA,mating capacity,mean percentage of inseminated females by a single male,23.29,percent,5.33,5.33,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of female inseminated out of n=40 tested,TRUE,01/01/2019
NA,NA,mating capacity,mean percentage of inseminated females by a single male,22.63,percent,4.74,4.74,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of female inseminated out of n=40 tested,TRUE,01/01/2019
NA,NA,mating capacity,mean percentage of inseminated females by a single male,25,percent,2.96,2.96,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of female inseminated out of n=40 tested,TRUE,01/01/2019
NA,NA,mating capacity,mean percentage of inseminated females by a single male,27.57,percent,4.73,4.73,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of female inseminated out of n=40 tested,TRUE,01/01/2019
NA,NA,mating capacity,mean percentage of inseminated females by a single male,22.57,percent,2.5,2.5,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of female inseminated out of n=40 tested,TRUE,01/01/2019
NA,NA,mating capacity,mean percentage of inseminated females by a single male,25.07,percent,5,5,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of female inseminated out of n=40 tested,TRUE,01/01/2019
NA,NA,mating capacity,mean percentage of inseminated females by a single male,25.07,percent,6.44,6.44,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of female inseminated out of n=40 tested,TRUE,01/01/2019
NA,NA,mating capacity,mean percentage of inseminated females by a single male,25.07,percent,4.93,4.93,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,interactor1number is the number of female inseminated out of n=40 tested,TRUE,01/01/2019
NA,NA,longevity,median duration of life stage,13,days,0.8,0.8,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,National Institute of Malaria Research New Delhi India,colony,NA,0,decimal,28.57785035,77.07622481,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Singh et al. 2002. Revisiting the Impact of Temperature on Survival of Anopheles Stephensi and Aedes Aegypti and implications on Extrinsic Incubation Period. J Commun Dis. 54: 1,10.24321/0019.5138.202251,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,relative humidity (RH) was 65-75 percent,TRUE,01/01/2002
NA,NA,longevity,median duration of life stage,8,days,0.37,0.37,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,National Institute of Malaria Research New Delhi India,colony,NA,0,decimal,28.57785035,77.07622481,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Singh et al. 2002. Revisiting the Impact of Temperature on Survival of Anopheles Stephensi and Aedes Aegypti and implications on Extrinsic Incubation Period. J Commun Dis. 54: 1,10.24321/0019.5138.202251,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,relative humidity (RH) was 65-75 percent,TRUE,01/01/2002
NA,NA,longevity,median duration of life stage,8,days,0.2,0.2,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,National Institute of Malaria Research New Delhi India,colony,NA,0,decimal,28.57785035,77.07622481,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Singh et al. 2002. Revisiting the Impact of Temperature on Survival of Anopheles Stephensi and Aedes Aegypti and implications on Extrinsic Incubation Period. J Commun Dis. 54: 1,10.24321/0019.5138.202251,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,relative humidity (RH) was 65-75 percent,TRUE,01/01/2002
NA,NA,longevity,median duration of life stage,5,days,0.22,0.22,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,National Institute of Malaria Research New Delhi India,colony,NA,0,decimal,28.57785035,77.07622481,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Singh et al. 2002. Revisiting the Impact of Temperature on Survival of Anopheles Stephensi and Aedes Aegypti and implications on Extrinsic Incubation Period. J Commun Dis. 54: 1,10.24321/0019.5138.202251,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,relative humidity (RH) was 65-75 percent,TRUE,01/01/2002
NA,NA,longevity,median duration of life stage,2,days,0,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,National Institute of Malaria Research New Delhi India,colony,NA,0,decimal,28.57785035,77.07622481,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,40,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Singh et al. 2002. Revisiting the Impact of Temperature on Survival of Anopheles Stephensi and Aedes Aegypti and implications on Extrinsic Incubation Period. J Commun Dis. 54: 1,10.24321/0019.5138.202251,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,relative humidity (RH) was 65-75 percent,TRUE,01/01/2002
NA,NA,longevity,median duration of life stage,10,days,0.44,0.44,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,National Institute of Malaria Research New Delhi India,colony,NA,0,decimal,28.57785035,77.07622481,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Singh et al. 2002. Revisiting the Impact of Temperature on Survival of Anopheles Stephensi and Aedes Aegypti and implications on Extrinsic Incubation Period. J Commun Dis. 54: 1,10.24321/0019.5138.202251,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,relative humidity (RH) was 65-75 percent,TRUE,01/01/2002
NA,NA,longevity,mean duration of life stage,12.27,days,0.45,0.45,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,National Institute of Malaria Research New Delhi India,colony,NA,0,decimal,28.57785035,77.07622481,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Singh et al. 2002. Revisiting the Impact of Temperature on Survival of Anopheles Stephensi and Aedes Aegypti and implications on Extrinsic Incubation Period. J Commun Dis. 54: 1,10.24321/0019.5138.202251,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,relative humidity (RH) was 65-75 percent,TRUE,01/01/2002
NA,NA,longevity,mean duration of life stage,8.1,days,0.3,0.3,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,National Institute of Malaria Research New Delhi India,colony,NA,0,decimal,28.57785035,77.07622481,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Singh et al. 2002. Revisiting the Impact of Temperature on Survival of Anopheles Stephensi and Aedes Aegypti and implications on Extrinsic Incubation Period. J Commun Dis. 54: 1,10.24321/0019.5138.202251,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,relative humidity (RH) was 65-75 percent,TRUE,01/01/2002
NA,NA,longevity,mean duration of life stage,8.23,days,0.26,0.26,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,National Institute of Malaria Research New Delhi India,colony,NA,0,decimal,28.57785035,77.07622481,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,36,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Singh et al. 2002. Revisiting the Impact of Temperature on Survival of Anopheles Stephensi and Aedes Aegypti and implications on Extrinsic Incubation Period. J Commun Dis. 54: 1,10.24321/0019.5138.202251,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,relative humidity (RH) was 65-75 percent,TRUE,01/01/2002
NA,NA,longevity,mean duration of life stage,5.48,days,0.15,0.15,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,National Institute of Malaria Research New Delhi India,colony,NA,0,decimal,28.57785035,77.07622481,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Singh et al. 2002. Revisiting the Impact of Temperature on Survival of Anopheles Stephensi and Aedes Aegypti and implications on Extrinsic Incubation Period. J Commun Dis. 54: 1,10.24321/0019.5138.202251,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,relative humidity (RH) was 65-75 percent,TRUE,01/01/2002
NA,NA,longevity,mean duration of life stage,2.17,days,0.1,0.1,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,National Institute of Malaria Research New Delhi India,colony,NA,0,decimal,28.57785035,77.07622481,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,40,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Singh et al. 2002. Revisiting the Impact of Temperature on Survival of Anopheles Stephensi and Aedes Aegypti and implications on Extrinsic Incubation Period. J Commun Dis. 54: 1,10.24321/0019.5138.202251,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,relative humidity (RH) was 65-75 percent,TRUE,01/01/2002
NA,NA,longevity,mean duration of life stage,13.18,days,0.63,0.63,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,National Institute of Malaria Research New Delhi India,colony,NA,0,decimal,28.57785035,77.07622481,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Singh et al. 2002. Revisiting the Impact of Temperature on Survival of Anopheles Stephensi and Aedes Aegypti and implications on Extrinsic Incubation Period. J Commun Dis. 54: 1,10.24321/0019.5138.202251,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,relative humidity (RH) was 65-75 percent,TRUE,01/01/2002
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of exposure to extreme high temperature,120,Celsius,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,400,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,37,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=400,TRUE,01/01/2021
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of exposure to extreme high temperature,180,Celsius,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,400,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,37,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=400,TRUE,01/01/2021
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of exposure to extreme high temperature,240,Celsius,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,400,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,37,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=400,TRUE,01/01/2021
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of exposure to extreme high temperature,360,Celsius,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,400,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,37,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=400,TRUE,01/01/2021
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of exposure to extreme high temperature,120,Celsius,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,400,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,39,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=400,TRUE,01/01/2021
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of exposure to extreme high temperature,240,Celsius,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,400,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,39,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=400,TRUE,01/01/2021
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of exposure to extreme high temperature,320,Celsius,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,400,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,39,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=400,TRUE,01/01/2021
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures,0.75,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of exposure to extreme high temperature,110,Celsius,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,397,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,41,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=400,TRUE,01/01/2021
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures,4.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of exposure to extreme high temperature,180,Celsius,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,382,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,41,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=400,TRUE,01/01/2021
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures,5.75,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of exposure to extreme high temperature,240,Celsius,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,377,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,41,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=400,TRUE,01/01/2021
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures,12,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of exposure to extreme high temperature,360,Celsius,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,352,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,41,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=400,TRUE,01/01/2021
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures,13.75,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of exposure to extreme high temperature,420,Celsius,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,345,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=400,TRUE,01/01/2021
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures,1.75,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of exposure to extreme high temperature,30,Celsius,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,393,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=400,TRUE,01/01/2021
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures,5.25,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of exposure to extreme high temperature,60,Celsius,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,379,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=400,TRUE,01/01/2021
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures,35.75,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of exposure to extreme high temperature,120,Celsius,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,257,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=400,TRUE,01/01/2021
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures,87.25,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of exposure to extreme high temperature,180,Celsius,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,51,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,45,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=400,TRUE,01/01/2021
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures,99.75,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of exposure to extreme high temperature,220,Celsius,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,45,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=400,TRUE,01/01/2021
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of exposure to extreme high temperature,230,Celsius,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=400,TRUE,01/01/2021
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures,41,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of exposure to extreme high temperature,10,Celsius,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,236,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,45,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=400,TRUE,01/01/2021
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures,84.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of exposure to extreme high temperature,30,Celsius,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,62,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,45,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=400,TRUE,01/01/2021
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures following acclimation (see notes),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of exposure to extreme high temperature,60,minutes,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,45,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=400,TRUE,01/01/2021
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures following acclimation (see notes),5.25,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of re-exposure to extreme high temperature following previous acclimation exposure,10,minutes,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,379,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,larvae were exposed to 37 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp for the durations detailed in secondstressor. interactor1number is the number of individuals that survived life stage from an intitial n=400 at the start of the experiment,TRUE,01/01/2021
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures following acclimation (see notes),23.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of re-exposure to extreme high temperature following previous acclimation exposure,60,minutes,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,305,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,larvae were exposed to 37 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp for the durations detailed in secondstressor. interactor1number is the number of individuals that survived life stage from an intitial n=400 at the start of the experiment,TRUE,01/01/2021
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures following acclimation (see notes),66.75,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of re-exposure to extreme high temperature following previous acclimation exposure,120,minutes,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,133,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,larvae were exposed to 37 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp for the durations detailed in secondstressor. interactor1number is the number of individuals that survived life stage from an intitial n=400 at the start of the experiment,TRUE,01/01/2021
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures following acclimation (see notes),84.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of re-exposure to extreme high temperature following previous acclimation exposure,180,minutes,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,62,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,larvae were exposed to 37 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp for the durations detailed in secondstressor. interactor1number is the number of individuals that survived life stage from an intitial n=400 at the start of the experiment,TRUE,01/01/2021
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures following acclimation (see notes),96.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of re-exposure to extreme high temperature following previous acclimation exposure,220,minutes,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,larvae were exposed to 37 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp for the durations detailed in secondstressor. interactor1number is the number of individuals that survived life stage from an intitial n=400 at the start of the experiment,TRUE,01/01/2021
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures following acclimation (see notes),99.75,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of re-exposure to extreme high temperature following previous acclimation exposure,280,minutes,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,larvae were exposed to 37 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp for the durations detailed in secondstressor. interactor1number is the number of individuals that survived life stage from an intitial n=400 at the start of the experiment,TRUE,01/01/2021
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures following acclimation (see notes),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of re-exposure to extreme high temperature following previous acclimation exposure,290,minutes,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,larvae were exposed to 37 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp for the durations detailed in secondstressor. interactor1number is the number of individuals that survived life stage from an intitial n=400 at the start of the experiment,TRUE,01/01/2021
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures following acclimation (see notes),62.3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of re-exposure to extreme high temperature following previous acclimation exposure,30,minutes,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,151,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,45,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,larvae were exposed to 39 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp for the durations detailed in secondstressor. interactor1number is the number of individuals that survived life stage from an intitial n=400 at the start of the experiment,TRUE,01/01/2021
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures following acclimation (see notes),96,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of re-exposure to extreme high temperature following previous acclimation exposure,60,minutes,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,45,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,larvae were exposed to 39 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp for the durations detailed in secondstressor. interactor1number is the number of individuals that survived life stage from an intitial n=400 at the start of the experiment,TRUE,01/01/2021
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures following acclimation (see notes),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of re-exposure to extreme high temperature following previous acclimation exposure,80,minutes,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,45,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,larvae were exposed to 39 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp for the durations detailed in secondstressor. interactor1number is the number of individuals that survived life stage from an intitial n=400 at the start of the experiment,TRUE,01/01/2021
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures following acclimation (see notes),0.25,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of re-exposure to extreme high temperature following previous acclimation exposure,20,minutes,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,399,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,larvae were exposed to 39 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp for the durations detailed in secondstressor. interactor1number is the number of individuals that survived life stage from an intitial n=400 at the start of the experiment,TRUE,01/01/2021
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures following acclimation (see notes),0.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of re-exposure to extreme high temperature following previous acclimation exposure,60,minutes,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,398,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,larvae were exposed to 39 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp for the durations detailed in secondstressor. interactor1number is the number of individuals that survived life stage from an intitial n=400 at the start of the experiment,TRUE,01/01/2021
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures following acclimation (see notes),25,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of re-exposure to extreme high temperature following previous acclimation exposure,180,minutes,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,300,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,larvae were exposed to 39 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp for the durations detailed in secondstressor. interactor1number is the number of individuals that survived life stage from an intitial n=400 at the start of the experiment,TRUE,01/01/2021
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures following acclimation (see notes),47,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of re-exposure to extreme high temperature following previous acclimation exposure,220,minutes,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,212,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,larvae were exposed to 39 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp for the durations detailed in secondstressor. interactor1number is the number of individuals that survived life stage from an intitial n=400 at the start of the experiment,TRUE,01/01/2021
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures following acclimation (see notes),85.25,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of re-exposure to extreme high temperature following previous acclimation exposure,280,minutes,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,59,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,larvae were exposed to 39 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp for the durations detailed in secondstressor. interactor1number is the number of individuals that survived life stage from an intitial n=400 at the start of the experiment,TRUE,01/01/2021
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures following acclimation (see notes),97,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of re-exposure to extreme high temperature following previous acclimation exposure,340,minutes,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,larvae were exposed to 39 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp for the durations detailed in secondstressor. interactor1number is the number of individuals that survived life stage from an intitial n=400 at the start of the experiment,TRUE,01/01/2021
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures following acclimation (see notes),99.25,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of re-exposure to extreme high temperature following previous acclimation exposure,400,minutes,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,larvae were exposed to 39 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp for the durations detailed in secondstressor. interactor1number is the number of individuals that survived life stage from an intitial n=400 at the start of the experiment,TRUE,01/01/2021
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures following acclimation (see notes),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of re-exposure to extreme high temperature following previous acclimation exposure,440,minutes,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,larvae were exposed to 39 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp for the durations detailed in secondstressor. interactor1number is the number of individuals that survived life stage from an intitial n=400 at the start of the experiment,TRUE,01/01/2021
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures following acclimation (see notes),2.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of re-exposure to extreme high temperature following previous acclimation exposure,30,minutes,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,390,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,45,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,larvae were exposed to 39 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp for the durations detailed in secondstressor. interactor1number is the number of individuals that survived life stage from an intitial n=400 at the start of the experiment,TRUE,01/01/2021
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures following acclimation (see notes),5.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of re-exposure to extreme high temperature following previous acclimation exposure,30,minutes,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,377,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,45,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,larvae were exposed to 39 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp for the durations detailed in secondstressor. interactor1number is the number of individuals that survived life stage from an intitial n=400 at the start of the experiment,TRUE,01/01/2021
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures following acclimation (see notes),86.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of re-exposure to extreme high temperature following previous acclimation exposure,60,minutes,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,53,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,45,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,larvae were exposed to 39 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp for the durations detailed in secondstressor. interactor1number is the number of individuals that survived life stage from an intitial n=400 at the start of the experiment,TRUE,01/01/2021
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures following acclimation (see notes),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of re-exposure to extreme high temperature following previous acclimation exposure,90,minutes,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,45,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,larvae were exposed to 39 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp for the durations detailed in secondstressor. interactor1number is the number of individuals that survived life stage from an intitial n=400 at the start of the experiment,TRUE,01/01/2021
NA,NA,survival,percentage surviving life stage,89.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to L1,NA,27,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2021
NA,NA,survival,percentage surviving life stage,86,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to L1,NA,37,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2021
NA,NA,survival,percentage surviving life stage,93,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to L1,NA,39,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2021
NA,NA,survival,percentage surviving life stage,59,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg to L1,NA,41,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2021
NA,NA,survival,percentage surviving life stage,83.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,179,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to L2,NA,27,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an intitial n=200 at the start of the experiment,TRUE,01/01/2021
NA,NA,survival,percentage surviving life stage,89.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,172,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to L2,NA,37,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an intitial n=200 at the start of the experiment,TRUE,01/01/2021
NA,NA,survival,percentage surviving life stage,89.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,186,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to L2,NA,39,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an intitial n=200 at the start of the experiment,TRUE,01/01/2021
NA,NA,survival,percentage surviving life stage,93.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,118,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to L2,NA,41,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an intitial n=200 at the start of the experiment,TRUE,01/01/2021
NA,NA,survival,percentage surviving life stage,90.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2 to L3,NA,27,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2021
NA,NA,survival,percentage surviving life stage,90.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2 to L3,NA,37,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2021
NA,NA,survival,percentage surviving life stage,95.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2 to L3,NA,39,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2021
NA,NA,survival,percentage surviving life stage,90.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2 to L3,NA,41,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2021
NA,NA,survival,percentage surviving life stage,92.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,27,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2021
NA,NA,survival,percentage surviving life stage,90.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,37,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2021
NA,NA,survival,percentage surviving life stage,88.1,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,39,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2021
NA,NA,survival,percentage surviving life stage,93,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,41,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2021
NA,NA,survival,percentage surviving life stage,85.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,27,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2021
NA,NA,survival,percentage surviving life stage,92.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,37,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2021
NA,NA,survival,percentage surviving life stage,98.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,39,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2021
NA,NA,survival,percentage surviving life stage,91.4,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,41,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2021
NA,NA,survival,percentage surviving life stage,92.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,27,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2021
NA,NA,survival,percentage surviving life stage,91.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,37,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2021
NA,NA,survival,percentage surviving life stage,98.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,39,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2021
NA,NA,survival,percentage surviving life stage,92.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,41,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2021
NA,NA,survival,percentage surviving life stage,55.3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,99,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to adult,NA,27,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an intitial n=200 at the start of the experiment,TRUE,01/01/2021
NA,NA,survival,percentage surviving life stage,62.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,108,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to adult,NA,37,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an intitial n=200 at the start of the experiment,TRUE,01/01/2021
NA,NA,survival,percentage surviving life stage,73.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,137,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to adult,NA,39,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an intitial n=200 at the start of the experiment,TRUE,01/01/2021
NA,NA,survival,percentage surviving life stage,66.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,79,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to adult,NA,41,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an intitial n=200 at the start of the experiment,TRUE,01/01/2021
NA,NA,mortality rate,mean time to death after exposure to high temperature,407.3,mins,3.5,3.5,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,41,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2021
NA,NA,mortality rate,mean time to death after exposure to high temperature,140.3,mins,2.2,2.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2021
NA,NA,mortality rate,mean time to death after exposure to high temperature,27.6,mins,0.4,0.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,45,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2021
NA,NA,mortality rate,mean time to death after exposure to high temperature,109.7,mins,3.1,3.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,43,Celsius,NA,37,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,Larvae were exposed to 37 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp.,TRUE,01/01/2021
NA,NA,mortality rate,mean time to death after exposure to high temperature,36.6,mins,0.6,0.6,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,45,Celsius,NA,37,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,Larvae were exposed to 37 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp.,TRUE,01/01/2021
NA,NA,mortality rate,mean time to death after exposure to high temperature,227.1,mins,3.1,3.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,43,Celsius,NA,39,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,Larvae were exposed to 39 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp.,TRUE,01/01/2021
NA,NA,mortality rate,mean time to death after exposure to high temperature,51.4,mins,0.6,0.6,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,45,Celsius,NA,39,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,Larvae were exposed to 39 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp.,TRUE,01/01/2021
NA,NA,mortality rate,median time to death after exposure to high temperature,140,mins,3.6,3.6,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2021
NA,NA,mortality rate,median time to death after exposure to high temperature,30,mins,0.42,0.42,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,45,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2021
NA,NA,mortality rate,median time to death after exposure to high temperature,110,mins,2.8,2.8,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,43,Celsius,NA,37,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,Larvae were exposed to 37 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp.,TRUE,01/01/2021
NA,NA,mortality rate,median time to death after exposure to high temperature,30,mins,0.4,0.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,45,Celsius,NA,37,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,Larvae were exposed to 37 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp.,TRUE,01/01/2021
NA,NA,mortality rate,median time to death after exposure to high temperature,230,mins,2.7,2.7,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,43,Celsius,NA,39,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,Larvae were exposed to 39 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp.,TRUE,01/01/2021
NA,NA,mortality rate,median time to death after exposure to high temperature,50,mins,0.4,0.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.402031,92.434654,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,45,Celsius,NA,39,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan at al. 2021. Thermotolerance and acclimation in the immature stages of Ae. aegypti (L) (Diptera: Culicidae) to simulated thermal stress. International Journal of Tropical Insect Science 41,10.1007/s42690-020-00211-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,Larvae were exposed to 39 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp.,TRUE,01/01/2021
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of exposure to extreme high temperature,120,Celsius,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,800,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,37,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=800,TRUE,01/01/2019
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of exposure to extreme high temperature,180,Celsius,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,800,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,37,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=800,TRUE,01/01/2019
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of exposure to extreme high temperature,240,Celsius,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,800,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,37,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=800,TRUE,01/01/2019
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of exposure to extreme high temperature,360,Celsius,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,800,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,37,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=800,TRUE,01/01/2019
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of exposure to extreme high temperature,120,Celsius,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,800,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,39,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=800,TRUE,01/01/2019
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of exposure to extreme high temperature,240,Celsius,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,800,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,39,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=800,TRUE,01/01/2019
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of exposure to extreme high temperature,320,Celsius,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,800,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,39,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=800,TRUE,01/01/2019
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures,3.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of exposure to extreme high temperature,180,Celsius,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,772,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,41,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=800,TRUE,01/01/2019
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures,10.75,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of exposure to extreme high temperature,240,Celsius,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,714,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,41,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=800,TRUE,01/01/2019
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures,25.37,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of exposure to extreme high temperature,360,Celsius,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,597,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,41,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=800,TRUE,01/01/2019
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures,33.67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of exposure to extreme high temperature,420,Celsius,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,531,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,41,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=800,TRUE,01/01/2019
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures,4.62,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of exposure to extreme high temperature,60,Celsius,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,763,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=800,TRUE,01/01/2019
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures,90.87,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of exposure to extreme high temperature,180,Celsius,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,73,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=800,TRUE,01/01/2019
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures,99.87,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of exposure to extreme high temperature,220,Celsius,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=800,TRUE,01/01/2019
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of exposure to extreme high temperature,230,Celsius,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=800,TRUE,01/01/2019
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures,99.12,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of exposure to extreme high temperature,30,Celsius,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,45,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=800,TRUE,01/01/2019
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of exposure to extreme high temperature,40,Celsius,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,45,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=800,TRUE,01/01/2019
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures following acclimation (see notes),1.1,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of re-exposure to extreme high temperature following previous acclimation exposure,60,minutes,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,791,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,Larvae were exposed to 37 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp for the durations detailed in secondstressor. interactor1number is the number of individuals that survived life stage from an intitial n=800 at the start of the experiment,TRUE,01/01/2019
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures following acclimation (see notes),51.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of re-exposure to extreme high temperature following previous acclimation exposure,180,minutes,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,385,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,Larvae were exposed to 37 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp for the durations detailed in secondstressor. interactor1number is the number of individuals that survived life stage from an intitial n=800 at the start of the experiment,TRUE,01/01/2019
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures following acclimation (see notes),70.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of re-exposure to extreme high temperature following previous acclimation exposure,220,minutes,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,233,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,Larvae were exposed to 37 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp for the durations detailed in secondstressor. interactor1number is the number of individuals that survived life stage from an intitial n=800 at the start of the experiment,TRUE,01/01/2019
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures following acclimation (see notes),80.37,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of re-exposure to extreme high temperature following previous acclimation exposure,240,minutes,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,157,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,Larvae were exposed to 37 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp for the durations detailed in secondstressor. interactor1number is the number of individuals that survived life stage from an intitial n=800 at the start of the experiment,TRUE,01/01/2019
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures following acclimation (see notes),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of re-exposure to extreme high temperature following previous acclimation exposure,290,minutes,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,Larvae were exposed to 37 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp for the durations detailed in secondstressor. interactor1number is the number of individuals that survived life stage from an intitial n=800 at the start of the experiment,TRUE,01/01/2019
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures following acclimation (see notes),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of re-exposure to extreme high temperature following previous acclimation exposure,60,minutes,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,800,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,Larvae were exposed to 39 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp for the durations detailed in secondstressor. interactor1number is the number of individuals that survived life stage from an intitial n=800 at the start of the experiment,TRUE,01/01/2019
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures following acclimation (see notes),12.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of re-exposure to extreme high temperature following previous acclimation exposure,180,minutes,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,698,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,Larvae were exposed to 39 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp for the durations detailed in secondstressor. interactor1number is the number of individuals that survived life stage from an intitial n=800 at the start of the experiment,TRUE,01/01/2019
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures following acclimation (see notes),28.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of re-exposure to extreme high temperature following previous acclimation exposure,220,minutes,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,569,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,Larvae were exposed to 39 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp for the durations detailed in secondstressor. interactor1number is the number of individuals that survived life stage from an intitial n=800 at the start of the experiment,TRUE,01/01/2019
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures following acclimation (see notes),37.37,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of re-exposure to extreme high temperature following previous acclimation exposure,240,minutes,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,501,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,Larvae were exposed to 39 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp for the durations detailed in secondstressor. interactor1number is the number of individuals that survived life stage from an intitial n=800 at the start of the experiment,TRUE,01/01/2019
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures following acclimation (see notes),58,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of re-exposure to extreme high temperature following previous acclimation exposure,280,minutes,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,336,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,Larvae were exposed to 39 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp for the durations detailed in secondstressor. interactor1number is the number of individuals that survived life stage from an intitial n=800 at the start of the experiment,TRUE,01/01/2019
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures following acclimation (see notes),88.37,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of re-exposure to extreme high temperature following previous acclimation exposure,340,minutes,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,93,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,Larvae were exposed to 39 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp for the durations detailed in secondstressor. interactor1number is the number of individuals that survived life stage from an intitial n=800 at the start of the experiment,TRUE,01/01/2019
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures following acclimation (see notes),99,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of re-exposure to extreme high temperature following previous acclimation exposure,400,minutes,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,Larvae were exposed to 39 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp for the durations detailed in secondstressor. interactor1number is the number of individuals that survived life stage from an intitial n=800 at the start of the experiment,TRUE,01/01/2019
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures following acclimation (see notes),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of re-exposure to extreme high temperature following previous acclimation exposure,430,minutes,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,Larvae were exposed to 39 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp for the durations detailed in secondstressor. interactor1number is the number of individuals that survived life stage from an intitial n=800 at the start of the experiment,TRUE,01/01/2019
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures following acclimation (see notes),79.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of re-exposure to extreme high temperature following previous acclimation exposure,30,minutes,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,161,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,45,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,Larvae were exposed to 37 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp for the durations detailed in secondstressor. interactor1number is the number of individuals that survived life stage from an intitial n=800 at the start of the experiment,TRUE,01/01/2019
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures following acclimation (see notes),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of re-exposure to extreme high temperature following previous acclimation exposure,60,minutes,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,45,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,Larvae were exposed to 37 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp for the durations detailed in secondstressor. interactor1number is the number of individuals that survived life stage from an intitial n=800 at the start of the experiment,TRUE,01/01/2019
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures following acclimation (see notes),6.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of re-exposure to extreme high temperature following previous acclimation exposure,30,minutes,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,748,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,45,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,Larvae were exposed to 39 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp for the durations detailed in secondstressor. interactor1number is the number of individuals that survived life stage from an intitial n=800 at the start of the experiment,TRUE,01/01/2019
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures following acclimation (see notes),85.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of re-exposure to extreme high temperature following previous acclimation exposure,60,minutes,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,113,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,45,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,Larvae were exposed to 39 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp for the durations detailed in secondstressor. interactor1number is the number of individuals that survived life stage from an intitial n=800 at the start of the experiment,TRUE,01/01/2019
NA,NA,mortality,percentage mortality during life stage as a function of exposure duration to extreme high temperatures following acclimation (see notes),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,high temperature exposure,duration of re-exposure to extreme high temperature following previous acclimation exposure,90,minutes,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,45,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,Larvae were exposed to 39 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp for the durations detailed in secondstressor. interactor1number is the number of individuals that survived life stage from an intitial n=800 at the start of the experiment,TRUE,01/01/2019
NA,NA,survival,percentage surviving life stage,90,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg to L1,NA,27,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2019
NA,NA,survival,percentage surviving life stage,89,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg to L1,NA,37,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2019
NA,NA,survival,percentage surviving life stage,77.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg to L1,NA,39,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2019
NA,NA,survival,percentage surviving life stage,74.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg to L1,NA,41,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2019
NA,NA,survival,percentage surviving life stage,90,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to L2,NA,27,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an intitial n=200 at the start of the experiment,TRUE,01/01/2019
NA,NA,survival,percentage surviving life stage,93.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,178,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to L2,NA,37,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an intitial n=200 at the start of the experiment,TRUE,01/01/2019
NA,NA,survival,percentage surviving life stage,90.3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,155,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to L2,NA,39,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an intitial n=200 at the start of the experiment,TRUE,01/01/2019
NA,NA,survival,percentage surviving life stage,89.3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,149,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to L2,NA,41,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an intitial n=200 at the start of the experiment,TRUE,01/01/2019
NA,NA,survival,percentage surviving life stage,93.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2 to L3,NA,27,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2019
NA,NA,survival,percentage surviving life stage,83.3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2 to L3,NA,37,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2019
NA,NA,survival,percentage surviving life stage,90.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2 to L3,NA,39,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2019
NA,NA,survival,percentage surviving life stage,89.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2 to L3,NA,41,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2019
NA,NA,survival,percentage surviving life stage,96,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,27,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2019
NA,NA,survival,percentage surviving life stage,95.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,37,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2019
NA,NA,survival,percentage surviving life stage,89.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,39,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2019
NA,NA,survival,percentage surviving life stage,85.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,41,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2019
NA,NA,survival,percentage surviving life stage,91.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,27,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2019
NA,NA,survival,percentage surviving life stage,91,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,37,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2019
NA,NA,survival,percentage surviving life stage,81.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,39,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2019
NA,NA,survival,percentage surviving life stage,84.3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,41,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2019
NA,NA,survival,percentage surviving life stage,87.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,27,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2019
NA,NA,survival,percentage surviving life stage,92.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,37,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2019
NA,NA,survival,percentage surviving life stage,93.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,39,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2019
NA,NA,survival,percentage surviving life stage,89.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,41,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2019
NA,NA,survival,percentage surviving life stage,65,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,27,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an intitial n=200 at the start of the experiment,TRUE,01/01/2019
NA,NA,survival,percentage surviving life stage,63.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,178,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,37,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an intitial n=200 at the start of the experiment,TRUE,01/01/2019
NA,NA,survival,percentage surviving life stage,56.1,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,155,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,39,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an intitial n=200 at the start of the experiment,TRUE,01/01/2019
NA,NA,survival,percentage surviving life stage,51.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,149,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,41,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an intitial n=200 at the start of the experiment,TRUE,01/01/2019
NA,NA,mortality rate,mean time to death after exposure to high temperature,431.9,mins,3.9,3.9,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,41,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2019
NA,NA,mortality rate,mean time to death after exposure to high temperature,131.9,mins,1.4,1.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2019
NA,NA,mortality rate,mean time to death after exposure to high temperature,16.4,mins,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,45,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2019
NA,NA,mortality rate,mean time to death after exposure to high temperature,177.3,mins,2.2,2.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,43,Celsius,NA,37,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,Larvae were exposed to 37 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp.,TRUE,01/01/2019
NA,NA,mortality rate,mean time to death after exposure to high temperature,30.9,mins,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,45,Celsius,NA,37,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,Larvae were exposed to 37 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp.,TRUE,01/01/2019
NA,NA,mortality rate,mean time to death after exposure to high temperature,266.1,mins,2.4,2.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,43,Celsius,NA,39,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,Larvae were exposed to 39 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp.,TRUE,01/01/2019
NA,NA,mortality rate,mean time to death after exposure to high temperature,51.3,mins,0.4,0.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,45,Celsius,NA,39,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,Larvae were exposed to 39 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp.,TRUE,01/01/2019
NA,NA,mortality rate,median time to death after exposure to high temperature,130,mins,1.3,1.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,43,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2019
NA,NA,mortality rate,median time to death after exposure to high temperature,20,mins,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,45,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,NA,TRUE,01/01/2019
NA,NA,mortality rate,median time to death after exposure to high temperature,180,mins,4,4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,43,Celsius,NA,37,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,Larvae were exposed to 37 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp.,TRUE,01/01/2019
NA,NA,mortality rate,median time to death after exposure to high temperature,30,mins,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,45,Celsius,NA,37,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,Larvae were exposed to 37 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp.,TRUE,01/01/2019
NA,NA,mortality rate,median time to death after exposure to high temperature,270,mins,3.4,3.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,43,Celsius,NA,39,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,Larvae were exposed to 39 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp.,TRUE,01/01/2019
NA,NA,mortality rate,median time to death after exposure to high temperature,50,mins,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Port Blair South Andaman District,field (F1),NA,0,decimal,11.4,92.43,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,45,Celsius,NA,39,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Sivan et al. 2019. Impact of Temperature Variant on Survival of Aedes albopictus Skuse (Diptera: Culicidae): Implications on Thermotolerance and Acclimation. Neotrop Entomol 48,10.1007/s13744-019-00680-x,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,Larvae were exposed to 39 degrees Celsius for 420 min. Survivors were allowed to recover at 27 degrees Celsius and 75% RH for 12 h. Acclimated survivors where then re-exposed to interactor1temp.,TRUE,01/01/2019
NA,NA,mortality,time needed for 100 per cent mortality at extreme high temperatures,2,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Fort Collins Colorado,colony,NA,0,decimal,40.58542617,-105.0865997,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,40.6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Smith et al. 1988. Use of elevated temperatures to kill Aedes albopictus and Ae. aegypti. J. Am. Mosq. Control Assoc. 4:557-558,NA,NA,NA,Paul Huxley,phuxly@gmail.com,originaltraitvalue is <2,TRUE,01/01/1988
NA,NA,mortality,time needed for 100 per cent mortality at extreme high temperatures,2,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Fort Collins Colorado,colony,NA,0,decimal,40.58542617,-105.0865997,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,43.3,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Smith et al. 1988. Use of elevated temperatures to kill Aedes albopictus and Ae. aegypti. J. Am. Mosq. Control Assoc. 4:557-558,NA,NA,NA,Paul Huxley,phuxly@gmail.com,originaltraitvalue is <2,TRUE,01/01/1988
NA,NA,mortality,time needed for 100 per cent mortality at extreme high temperatures,10,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Fort Collins Colorado,colony,NA,0,decimal,40.58542617,-105.0865997,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,46.1,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Smith et al. 1988. Use of elevated temperatures to kill Aedes albopictus and Ae. aegypti. J. Am. Mosq. Control Assoc. 4:557-558,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1988
NA,NA,mortality,time needed for 100 per cent mortality at extreme high temperatures,120,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Fort Collins Colorado,colony,NA,0,decimal,40.58542617,-105.0865997,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,48.9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Smith et al. 1988. Use of elevated temperatures to kill Aedes albopictus and Ae. aegypti. J. Am. Mosq. Control Assoc. 4:557-558,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1988
NA,NA,mortality,time needed for 100 per cent mortality at extreme high temperatures,240,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Fort Collins Colorado,colony,NA,0,decimal,40.58542617,-105.0865997,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,51.7,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Smith et al. 1988. Use of elevated temperatures to kill Aedes albopictus and Ae. aegypti. J. Am. Mosq. Control Assoc. 4:557-558,NA,NA,NA,Paul Huxley,phuxly@gmail.com,originaltraitvalue is >240,TRUE,01/01/1988
NA,NA,mortality,time needed for 100 per cent mortality at extreme high temperatures,2,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Fort Collins Colorado,colony,NA,0,decimal,40.58542617,-105.0865997,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,40.6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Smith et al. 1988. Use of elevated temperatures to kill Aedes albopictus and Ae. aegypti. J. Am. Mosq. Control Assoc. 4:557-558,NA,NA,NA,Paul Huxley,phuxly@gmail.com,originaltraitvalue is <2,TRUE,01/01/1988
NA,NA,mortality,time needed for 100 per cent mortality at extreme high temperatures,2,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Fort Collins Colorado,colony,NA,0,decimal,40.58542617,-105.0865997,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,43.3,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Smith et al. 1988. Use of elevated temperatures to kill Aedes albopictus and Ae. aegypti. J. Am. Mosq. Control Assoc. 4:557-558,NA,NA,NA,Paul Huxley,phuxly@gmail.com,originaltraitvalue is <2,TRUE,01/01/1988
NA,NA,mortality,time needed for 100 per cent mortality at extreme high temperatures,10,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Fort Collins Colorado,colony,NA,0,decimal,40.58542617,-105.0865997,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,46.1,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Smith et al. 1988. Use of elevated temperatures to kill Aedes albopictus and Ae. aegypti. J. Am. Mosq. Control Assoc. 4:557-558,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1988
NA,NA,mortality,time needed for 100 per cent mortality at extreme high temperatures,180,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Fort Collins Colorado,colony,NA,0,decimal,40.58542617,-105.0865997,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,48.9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Smith et al. 1988. Use of elevated temperatures to kill Aedes albopictus and Ae. aegypti. J. Am. Mosq. Control Assoc. 4:557-558,NA,NA,NA,Paul Huxley,phuxly@gmail.com,originaltraitvalue is >180,TRUE,01/01/1988
NA,NA,mortality,time needed for 100 per cent mortality at extreme high temperatures,180,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Fort Collins Colorado,colony,NA,0,decimal,40.58542617,-105.0865997,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,51.7,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Smith et al. 1988. Use of elevated temperatures to kill Aedes albopictus and Ae. aegypti. J. Am. Mosq. Control Assoc. 4:557-558,NA,NA,NA,Paul Huxley,phuxly@gmail.com,originaltraitvalue is >180,TRUE,01/01/1988
NA,NA,mortality,time needed for 100 per cent mortality at extreme high temperatures,2,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Fort Collins Colorado,colony,NA,0,decimal,40.58542617,-105.0865997,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,40.6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Smith et al. 1988. Use of elevated temperatures to kill Aedes albopictus and Ae. aegypti. J. Am. Mosq. Control Assoc. 4:557-558,NA,NA,NA,Paul Huxley,phuxly@gmail.com,originaltraitvalue is <2,TRUE,01/01/1988
NA,NA,mortality,time needed for 100 per cent mortality at extreme high temperatures,5,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Fort Collins Colorado,colony,NA,0,decimal,40.58542617,-105.0865997,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,43.3,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Smith et al. 1988. Use of elevated temperatures to kill Aedes albopictus and Ae. aegypti. J. Am. Mosq. Control Assoc. 4:557-558,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1988
NA,NA,mortality,time needed for 100 per cent mortality at extreme high temperatures,10,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Fort Collins Colorado,colony,NA,0,decimal,40.58542617,-105.0865997,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,46.1,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Smith et al. 1988. Use of elevated temperatures to kill Aedes albopictus and Ae. aegypti. J. Am. Mosq. Control Assoc. 4:557-558,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1988
NA,NA,mortality,time needed for 100 per cent mortality at extreme high temperatures,30,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Fort Collins Colorado,colony,NA,0,decimal,40.58542617,-105.0865997,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,48.9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Smith et al. 1988. Use of elevated temperatures to kill Aedes albopictus and Ae. aegypti. J. Am. Mosq. Control Assoc. 4:557-558,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1988
NA,NA,mortality,time needed for 100 per cent mortality at extreme high temperatures,120,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Fort Collins Colorado,colony,NA,0,decimal,40.58542617,-105.0865997,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,51.7,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Smith et al. 1988. Use of elevated temperatures to kill Aedes albopictus and Ae. aegypti. J. Am. Mosq. Control Assoc. 4:557-558,NA,NA,NA,Paul Huxley,phuxly@gmail.com,originaltraitvalue is >120,TRUE,01/01/1988
NA,NA,mortality,time needed for 100 per cent mortality at extreme high temperatures,10,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Fort Collins Colorado,colony,NA,0,decimal,40.58542617,-105.0865997,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,40.6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Smith et al. 1988. Use of elevated temperatures to kill Aedes albopictus and Ae. aegypti. J. Am. Mosq. Control Assoc. 4:557-558,NA,NA,NA,Paul Huxley,phuxly@gmail.com,originaltraitvalue is <10,TRUE,01/01/1988
NA,NA,mortality,time needed for 100 per cent mortality at extreme high temperatures,10,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Fort Collins Colorado,colony,NA,0,decimal,40.58542617,-105.0865997,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,43.3,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Smith et al. 1988. Use of elevated temperatures to kill Aedes albopictus and Ae. aegypti. J. Am. Mosq. Control Assoc. 4:557-558,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1988
NA,NA,mortality,time needed for 100 per cent mortality at extreme high temperatures,30,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Fort Collins Colorado,colony,NA,0,decimal,40.58542617,-105.0865997,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,46.1,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Smith et al. 1988. Use of elevated temperatures to kill Aedes albopictus and Ae. aegypti. J. Am. Mosq. Control Assoc. 4:557-558,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1988
NA,NA,mortality,time needed for 100 per cent mortality at extreme high temperatures,30,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Fort Collins Colorado,colony,NA,0,decimal,40.58542617,-105.0865997,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,48.9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Smith et al. 1988. Use of elevated temperatures to kill Aedes albopictus and Ae. aegypti. J. Am. Mosq. Control Assoc. 4:557-558,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1988
NA,NA,mortality,time needed for 100 per cent mortality at extreme high temperatures,60,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Fort Collins Colorado,colony,NA,0,decimal,40.58542617,-105.0865997,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,51.7,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Smith et al. 1988. Use of elevated temperatures to kill Aedes albopictus and Ae. aegypti. J. Am. Mosq. Control Assoc. 4:557-558,NA,NA,NA,Paul Huxley,phuxly@gmail.com,originaltraitvalue is >60,TRUE,01/01/1988
NA,NA,mortality,time needed for 100 per cent mortality at extreme high temperatures,2,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Fort Collins Colorado,colony,NA,0,decimal,40.58542617,-105.0865997,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,40.6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Smith et al. 1988. Use of elevated temperatures to kill Aedes albopictus and Ae. aegypti. J. Am. Mosq. Control Assoc. 4:557-558,NA,NA,NA,Paul Huxley,phuxly@gmail.com,originaltraitvalue is <2,TRUE,01/01/1988
NA,NA,mortality,time needed for 100 per cent mortality at extreme high temperatures,2,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Fort Collins Colorado,colony,NA,0,decimal,40.58542617,-105.0865997,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,43.3,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Smith et al. 1988. Use of elevated temperatures to kill Aedes albopictus and Ae. aegypti. J. Am. Mosq. Control Assoc. 4:557-558,NA,NA,NA,Paul Huxley,phuxly@gmail.com,originaltraitvalue is <2,TRUE,01/01/1988
NA,NA,mortality,time needed for 100 per cent mortality at extreme high temperatures,15,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Fort Collins Colorado,colony,NA,0,decimal,40.58542617,-105.0865997,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,46.1,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Smith et al. 1988. Use of elevated temperatures to kill Aedes albopictus and Ae. aegypti. J. Am. Mosq. Control Assoc. 4:557-558,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1988
NA,NA,mortality,time needed for 100 per cent mortality at extreme high temperatures,120,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Fort Collins Colorado,colony,NA,0,decimal,40.58542617,-105.0865997,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,48.9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Smith et al. 1988. Use of elevated temperatures to kill Aedes albopictus and Ae. aegypti. J. Am. Mosq. Control Assoc. 4:557-558,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1988
NA,NA,mortality,time needed for 100 per cent mortality at extreme high temperatures,240,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Fort Collins Colorado,colony,NA,0,decimal,40.58542617,-105.0865997,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,51.7,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Smith et al. 1988. Use of elevated temperatures to kill Aedes albopictus and Ae. aegypti. J. Am. Mosq. Control Assoc. 4:557-558,NA,NA,NA,Paul Huxley,phuxly@gmail.com,originaltraitvalue is >240,TRUE,01/01/1988
NA,NA,mortality,time needed for 100 per cent mortality at extreme high temperatures,2,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Fort Collins Colorado,colony,NA,0,decimal,40.58542617,-105.0865997,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,40.6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Smith et al. 1988. Use of elevated temperatures to kill Aedes albopictus and Ae. aegypti. J. Am. Mosq. Control Assoc. 4:557-558,NA,NA,NA,Paul Huxley,phuxly@gmail.com,originaltraitvalue is <2,TRUE,01/01/1988
NA,NA,mortality,time needed for 100 per cent mortality at extreme high temperatures,5,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Fort Collins Colorado,colony,NA,0,decimal,40.58542617,-105.0865997,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,43.3,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Smith et al. 1988. Use of elevated temperatures to kill Aedes albopictus and Ae. aegypti. J. Am. Mosq. Control Assoc. 4:557-558,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1988
NA,NA,mortality,time needed for 100 per cent mortality at extreme high temperatures,15,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Fort Collins Colorado,colony,NA,0,decimal,40.58542617,-105.0865997,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,46.1,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Smith et al. 1988. Use of elevated temperatures to kill Aedes albopictus and Ae. aegypti. J. Am. Mosq. Control Assoc. 4:557-558,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1988
NA,NA,mortality,time needed for 100 per cent mortality at extreme high temperatures,180,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Fort Collins Colorado,colony,NA,0,decimal,40.58542617,-105.0865997,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,48.9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Smith et al. 1988. Use of elevated temperatures to kill Aedes albopictus and Ae. aegypti. J. Am. Mosq. Control Assoc. 4:557-558,NA,NA,NA,Paul Huxley,phuxly@gmail.com,originaltraitvalue is >180,TRUE,01/01/1988
NA,NA,mortality,time needed for 100 per cent mortality at extreme high temperatures,180,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Fort Collins Colorado,colony,NA,0,decimal,40.58542617,-105.0865997,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,51.7,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Smith et al. 1988. Use of elevated temperatures to kill Aedes albopictus and Ae. aegypti. J. Am. Mosq. Control Assoc. 4:557-558,NA,NA,NA,Paul Huxley,phuxly@gmail.com,originaltraitvalue is >180,TRUE,01/01/1988
NA,NA,mortality,time needed for 100 per cent mortality at extreme high temperatures,2,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Fort Collins Colorado,colony,NA,0,decimal,40.58542617,-105.0865997,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,40.6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Smith et al. 1988. Use of elevated temperatures to kill Aedes albopictus and Ae. aegypti. J. Am. Mosq. Control Assoc. 4:557-558,NA,NA,NA,Paul Huxley,phuxly@gmail.com,originaltraitvalue is <2,TRUE,01/01/1988
NA,NA,mortality,time needed for 100 per cent mortality at extreme high temperatures,5,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Fort Collins Colorado,colony,NA,0,decimal,40.58542617,-105.0865997,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,43.3,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Smith et al. 1988. Use of elevated temperatures to kill Aedes albopictus and Ae. aegypti. J. Am. Mosq. Control Assoc. 4:557-558,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1988
NA,NA,mortality,time needed for 100 per cent mortality at extreme high temperatures,10,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Fort Collins Colorado,colony,NA,0,decimal,40.58542617,-105.0865997,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,46.1,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Smith et al. 1988. Use of elevated temperatures to kill Aedes albopictus and Ae. aegypti. J. Am. Mosq. Control Assoc. 4:557-558,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1988
NA,NA,mortality,time needed for 100 per cent mortality at extreme high temperatures,120,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Fort Collins Colorado,colony,NA,0,decimal,40.58542617,-105.0865997,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,48.9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Smith et al. 1988. Use of elevated temperatures to kill Aedes albopictus and Ae. aegypti. J. Am. Mosq. Control Assoc. 4:557-558,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1988
NA,NA,mortality,time needed for 100 per cent mortality at extreme high temperatures,120,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Fort Collins Colorado,colony,NA,0,decimal,40.58542617,-105.0865997,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,51.7,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Smith et al. 1988. Use of elevated temperatures to kill Aedes albopictus and Ae. aegypti. J. Am. Mosq. Control Assoc. 4:557-558,NA,NA,NA,Paul Huxley,phuxly@gmail.com,originaltraitvalue is >120,TRUE,01/01/1988
NA,NA,mortality,time needed for 100 per cent mortality at extreme high temperatures,2,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Fort Collins Colorado,colony,NA,0,decimal,40.58542617,-105.0865997,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,40.6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Smith et al. 1988. Use of elevated temperatures to kill Aedes albopictus and Ae. aegypti. J. Am. Mosq. Control Assoc. 4:557-558,NA,NA,NA,Paul Huxley,phuxly@gmail.com,originaltraitvalue is <2,TRUE,01/01/1988
NA,NA,mortality,time needed for 100 per cent mortality at extreme high temperatures,15,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Fort Collins Colorado,colony,NA,0,decimal,40.58542617,-105.0865997,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,43.3,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Smith et al. 1988. Use of elevated temperatures to kill Aedes albopictus and Ae. aegypti. J. Am. Mosq. Control Assoc. 4:557-558,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1988
NA,NA,mortality,time needed for 100 per cent mortality at extreme high temperatures,30,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Fort Collins Colorado,colony,NA,0,decimal,40.58542617,-105.0865997,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,46.1,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Smith et al. 1988. Use of elevated temperatures to kill Aedes albopictus and Ae. aegypti. J. Am. Mosq. Control Assoc. 4:557-558,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1988
NA,NA,mortality,time needed for 100 per cent mortality at extreme high temperatures,30,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Fort Collins Colorado,colony,NA,0,decimal,40.58542617,-105.0865997,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,48.9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Smith et al. 1988. Use of elevated temperatures to kill Aedes albopictus and Ae. aegypti. J. Am. Mosq. Control Assoc. 4:557-558,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1988
NA,NA,mortality,time needed for 100 per cent mortality at extreme high temperatures,240,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Fort Collins Colorado,colony,NA,0,decimal,40.58542617,-105.0865997,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,51.7,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Smith et al. 1988. Use of elevated temperatures to kill Aedes albopictus and Ae. aegypti. J. Am. Mosq. Control Assoc. 4:557-558,NA,NA,NA,Paul Huxley,phuxly@gmail.com,originaltraitvalue is >240,TRUE,01/01/1988
NA,JOE006,survival,mean proportion of eggs that hatched as a function of temperature and shade,0.91,proportion,0.02,0.02,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,shade exposure,percent shade exposed to simulated by 3100 1860 775 and 0 lux,0,percent,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony (F147 Bora strain),NA,0,decimal,3.147778,101.695278,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Sukiato et al. 2019. The effects of temperature and shading on mortality and development rates of Aedes aegypti. J. Vector Ecology 44:2,10.1111/jvec.12358,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2019
NA,JOE006,survival,mean proportion of eggs that hatched as a function of temperature and shade,0.93,proportion,0.02,0.02,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,shade exposure,percent shade exposed to simulated by 3100 1860 775 and 0 lux,40,percent,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony (F147 Bora strain),NA,0,decimal,3.147778,101.695278,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Sukiato et al. 2019. The effects of temperature and shading on mortality and development rates of Aedes aegypti. J. Vector Ecology 44:2,10.1111/jvec.12358,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2019
NA,JOE006,survival,mean proportion of eggs that hatched as a function of temperature and shade,0.85,proportion,0.03,0.03,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,shade exposure,percent shade exposed to simulated by 3100 1860 775 and 0 lux,75,percent,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony (F147 Bora strain),NA,0,decimal,3.147778,101.695278,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Sukiato et al. 2019. The effects of temperature and shading on mortality and development rates of Aedes aegypti. J. Vector Ecology 44:2,10.1111/jvec.12358,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2019
NA,JOE006,survival,mean proportion of eggs that hatched as a function of temperature and shade,0.88,proportion,0.02,0.02,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,shade exposure,percent shade exposed to simulated by 3100 1860 775 and 0 lux,100,percent,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony (F147 Bora strain),NA,0,decimal,3.147778,101.695278,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Sukiato et al. 2019. The effects of temperature and shading on mortality and development rates of Aedes aegypti. J. Vector Ecology 44:2,10.1111/jvec.12358,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2019
NA,JOE006,survival,mean proportion of eggs that hatched as a function of temperature and shade,0.97,proportion,0.02,0.02,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,shade exposure,percent shade exposed to simulated by 3100 1860 775 and 0 lux,0,percent,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony (F147 Bora strain),NA,0,decimal,3.147778,101.695278,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Sukiato et al. 2019. The effects of temperature and shading on mortality and development rates of Aedes aegypti. J. Vector Ecology 44:2,10.1111/jvec.12358,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2019
NA,JOE006,survival,mean proportion of eggs that hatched as a function of temperature and shade,0.92,proportion,0.05,0.05,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,shade exposure,percent shade exposed to simulated by 3100 1860 775 and 0 lux,40,percent,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony (F147 Bora strain),NA,0,decimal,3.147778,101.695278,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Sukiato et al. 2019. The effects of temperature and shading on mortality and development rates of Aedes aegypti. J. Vector Ecology 44:2,10.1111/jvec.12358,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2019
NA,JOE006,survival,mean proportion of eggs that hatched as a function of temperature and shade,0.91,proportion,0.03,0.03,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,shade exposure,percent shade exposed to simulated by 3100 1860 775 and 0 lux,75,percent,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony (F147 Bora strain),NA,0,decimal,3.147778,101.695278,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Sukiato et al. 2019. The effects of temperature and shading on mortality and development rates of Aedes aegypti. J. Vector Ecology 44:2,10.1111/jvec.12358,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2019
NA,JOE006,survival,mean proportion of eggs that hatched as a function of temperature and shade,0.93,proportion,0.02,0.02,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,shade exposure,percent shade exposed to simulated by 3100 1860 775 and 0 lux,100,percent,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony (F147 Bora strain),NA,0,decimal,3.147778,101.695278,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Sukiato et al. 2019. The effects of temperature and shading on mortality and development rates of Aedes aegypti. J. Vector Ecology 44:2,10.1111/jvec.12358,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2019
NA,JOE006,survival,mean proportion of eggs that hatched as a function of temperature and shade,0.95,proportion,0.04,0.04,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,shade exposure,percent shade exposed to simulated by 3100 1860 775 and 0 lux,0,percent,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony (F147 Bora strain),NA,0,decimal,3.147778,101.695278,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Sukiato et al. 2019. The effects of temperature and shading on mortality and development rates of Aedes aegypti. J. Vector Ecology 44:2,10.1111/jvec.12358,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2019
NA,JOE006,survival,mean proportion of eggs that hatched as a function of temperature and shade,0.96,proportion,0.04,0.04,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,shade exposure,percent shade exposed to simulated by 3100 1860 775 and 0 lux,40,percent,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony (F147 Bora strain),NA,0,decimal,3.147778,101.695278,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Sukiato et al. 2019. The effects of temperature and shading on mortality and development rates of Aedes aegypti. J. Vector Ecology 44:2,10.1111/jvec.12358,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2019
NA,JOE006,survival,mean proportion of eggs that hatched as a function of temperature and shade,0.82,proportion,0.07,0.07,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,shade exposure,percent shade exposed to simulated by 3100 1860 775 and 0 lux,75,percent,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony (F147 Bora strain),NA,0,decimal,3.147778,101.695278,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Sukiato et al. 2019. The effects of temperature and shading on mortality and development rates of Aedes aegypti. J. Vector Ecology 44:2,10.1111/jvec.12358,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2019
NA,JOE006,survival,mean proportion of eggs that hatched as a function of temperature and shade,0.89,proportion,0.07,0.07,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,shade exposure,percent shade exposed to simulated by 3100 1860 775 and 0 lux,100,percent,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony (F147 Bora strain),NA,0,decimal,3.147778,101.695278,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Sukiato et al. 2019. The effects of temperature and shading on mortality and development rates of Aedes aegypti. J. Vector Ecology 44:2,10.1111/jvec.12358,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2019
NA,JOE006,survival,mean proportion of eggs that hatched as a function of temperature and shade,0.41,proportion,0.06,0.06,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,shade exposure,percent shade exposed to simulated by 3100 1860 775 and 0 lux,0,percent,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony (F147 Bora strain),NA,0,decimal,3.147778,101.695278,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,37,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Sukiato et al. 2019. The effects of temperature and shading on mortality and development rates of Aedes aegypti. J. Vector Ecology 44:2,10.1111/jvec.12358,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2019
NA,JOE006,survival,mean proportion of eggs that hatched as a function of temperature and shade,0.71,proportion,0.02,0.02,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,shade exposure,percent shade exposed to simulated by 3100 1860 775 and 0 lux,40,percent,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony (F147 Bora strain),NA,0,decimal,3.147778,101.695278,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,37,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Sukiato et al. 2019. The effects of temperature and shading on mortality and development rates of Aedes aegypti. J. Vector Ecology 44:2,10.1111/jvec.12358,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2019
NA,JOE006,survival,mean proportion of eggs that hatched as a function of temperature and shade,0.55,proportion,0.07,0.07,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,shade exposure,percent shade exposed to simulated by 3100 1860 775 and 0 lux,75,percent,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony (F147 Bora strain),NA,0,decimal,3.147778,101.695278,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,37,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Sukiato et al. 2019. The effects of temperature and shading on mortality and development rates of Aedes aegypti. J. Vector Ecology 44:2,10.1111/jvec.12358,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2019
NA,JOE006,survival,mean proportion of eggs that hatched as a function of temperature and shade,0.61,proportion,0.08,0.08,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,shade exposure,percent shade exposed to simulated by 3100 1860 775 and 0 lux,100,percent,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony (F147 Bora strain),NA,0,decimal,3.147778,101.695278,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,37,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Sukiato et al. 2019. The effects of temperature and shading on mortality and development rates of Aedes aegypti. J. Vector Ecology 44:2,10.1111/jvec.12358,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2019
NA,JOE007,mortality,proportion not surviving life stage,0.08,proportion,0.03,0.03,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,shade exposure,percent shade exposed to simulated by 3100 1860 775 and 0 lux,0,percent,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony (F147 Bora strain),NA,0,decimal,3.147778,101.695278,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Sukiato et al. 2019. The effects of temperature and shading on mortality and development rates of Aedes aegypti. J. Vector Ecology 44:2,10.1111/jvec.12358,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2019
NA,JOE007,mortality,proportion not surviving life stage,0.16,proportion,0.04,0.04,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,shade exposure,percent shade exposed to simulated by 3100 1860 775 and 0 lux,40,percent,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony (F147 Bora strain),NA,0,decimal,3.147778,101.695278,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Sukiato et al. 2019. The effects of temperature and shading on mortality and development rates of Aedes aegypti. J. Vector Ecology 44:2,10.1111/jvec.12358,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2019
NA,JOE007,mortality,proportion not surviving life stage,0.01,proportion,0.01,0.01,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,shade exposure,percent shade exposed to simulated by 3100 1860 775 and 0 lux,75,percent,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony (F147 Bora strain),NA,0,decimal,3.147778,101.695278,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Sukiato et al. 2019. The effects of temperature and shading on mortality and development rates of Aedes aegypti. J. Vector Ecology 44:2,10.1111/jvec.12358,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2019
NA,JOE007,mortality,proportion not surviving life stage,0.05,proportion,0.03,0.03,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,shade exposure,percent shade exposed to simulated by 3100 1860 775 and 0 lux,100,percent,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony (F147 Bora strain),NA,0,decimal,3.147778,101.695278,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Sukiato et al. 2019. The effects of temperature and shading on mortality and development rates of Aedes aegypti. J. Vector Ecology 44:2,10.1111/jvec.12358,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2019
NA,JOE007,mortality,proportion not surviving life stage,0.02,proportion,0.01,0.01,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,shade exposure,percent shade exposed to simulated by 3100 1860 775 and 0 lux,0,percent,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony (F147 Bora strain),NA,0,decimal,3.147778,101.695278,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Sukiato et al. 2019. The effects of temperature and shading on mortality and development rates of Aedes aegypti. J. Vector Ecology 44:2,10.1111/jvec.12358,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2019
NA,JOE007,mortality,proportion not surviving life stage,0.04,proportion,0.02,0.02,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,shade exposure,percent shade exposed to simulated by 3100 1860 775 and 0 lux,40,percent,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony (F147 Bora strain),NA,0,decimal,3.147778,101.695278,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Sukiato et al. 2019. The effects of temperature and shading on mortality and development rates of Aedes aegypti. J. Vector Ecology 44:2,10.1111/jvec.12358,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2019
NA,JOE007,mortality,proportion not surviving life stage,0.04,proportion,0.02,0.02,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,shade exposure,percent shade exposed to simulated by 3100 1860 775 and 0 lux,75,percent,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony (F147 Bora strain),NA,0,decimal,3.147778,101.695278,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Sukiato et al. 2019. The effects of temperature and shading on mortality and development rates of Aedes aegypti. J. Vector Ecology 44:2,10.1111/jvec.12358,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2019
NA,JOE007,mortality,proportion not surviving life stage,0.06,proportion,0.02,0.02,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,shade exposure,percent shade exposed to simulated by 3100 1860 775 and 0 lux,100,percent,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony (F147 Bora strain),NA,0,decimal,3.147778,101.695278,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Sukiato et al. 2019. The effects of temperature and shading on mortality and development rates of Aedes aegypti. J. Vector Ecology 44:2,10.1111/jvec.12358,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2019
NA,JOE007,mortality,proportion not surviving life stage,0.04,proportion,0.02,0.02,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,shade exposure,percent shade exposed to simulated by 3100 1860 775 and 0 lux,0,percent,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony (F147 Bora strain),NA,0,decimal,3.147778,101.695278,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Sukiato et al. 2019. The effects of temperature and shading on mortality and development rates of Aedes aegypti. J. Vector Ecology 44:2,10.1111/jvec.12358,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2019
NA,JOE007,mortality,proportion not surviving life stage,0.04,proportion,0.02,0.02,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,shade exposure,percent shade exposed to simulated by 3100 1860 775 and 0 lux,40,percent,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony (F147 Bora strain),NA,0,decimal,3.147778,101.695278,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Sukiato et al. 2019. The effects of temperature and shading on mortality and development rates of Aedes aegypti. J. Vector Ecology 44:2,10.1111/jvec.12358,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2019
NA,JOE007,mortality,proportion not surviving life stage,0.07,proportion,0.04,0.04,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,shade exposure,percent shade exposed to simulated by 3100 1860 775 and 0 lux,75,percent,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony (F147 Bora strain),NA,0,decimal,3.147778,101.695278,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Sukiato et al. 2019. The effects of temperature and shading on mortality and development rates of Aedes aegypti. J. Vector Ecology 44:2,10.1111/jvec.12358,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2019
NA,JOE007,mortality,proportion not surviving life stage,0.01,proportion,0.01,0.01,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,shade exposure,percent shade exposed to simulated by 3100 1860 775 and 0 lux,100,percent,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony (F147 Bora strain),NA,0,decimal,3.147778,101.695278,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Sukiato et al. 2019. The effects of temperature and shading on mortality and development rates of Aedes aegypti. J. Vector Ecology 44:2,10.1111/jvec.12358,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2019
NA,JOE007,mortality,proportion not surviving life stage,0.28,proportion,0.08,0.08,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,shade exposure,percent shade exposed to simulated by 3100 1860 775 and 0 lux,0,percent,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony (F147 Bora strain),NA,0,decimal,3.147778,101.695278,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,37,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Sukiato et al. 2019. The effects of temperature and shading on mortality and development rates of Aedes aegypti. J. Vector Ecology 44:2,10.1111/jvec.12358,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2019
NA,JOE007,mortality,proportion not surviving life stage,0.3,proportion,0.06,0.06,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,shade exposure,percent shade exposed to simulated by 3100 1860 775 and 0 lux,40,percent,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony (F147 Bora strain),NA,0,decimal,3.147778,101.695278,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,37,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Sukiato et al. 2019. The effects of temperature and shading on mortality and development rates of Aedes aegypti. J. Vector Ecology 44:2,10.1111/jvec.12358,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2019
NA,JOE007,mortality,proportion not surviving life stage,0.45,proportion,0.05,0.05,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,shade exposure,percent shade exposed to simulated by 3100 1860 775 and 0 lux,75,percent,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony (F147 Bora strain),NA,0,decimal,3.147778,101.695278,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,37,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Sukiato et al. 2019. The effects of temperature and shading on mortality and development rates of Aedes aegypti. J. Vector Ecology 44:2,10.1111/jvec.12358,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2019
NA,JOE007,mortality,proportion not surviving life stage,0.36,proportion,0.06,0.06,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,shade exposure,percent shade exposed to simulated by 3100 1860 775 and 0 lux,100,percent,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony (F147 Bora strain),NA,0,decimal,3.147778,101.695278,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,37,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Sukiato et al. 2019. The effects of temperature and shading on mortality and development rates of Aedes aegypti. J. Vector Ecology 44:2,10.1111/jvec.12358,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2019
NA,PHT04,development time,average duration of life stage,4.94,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupal,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT04,development time,average duration of life stage,3.98,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupal,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT04,development time,average duration of life stage,9.84,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT04,development time,average duration of life stage,8.14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT04,development time,average duration of life stage,7.52,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Kanchanaburi Province Thailand,colony (F23),NA,NA,decimal,14.004167,99.549167,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT04,development time,average duration of life stage,8.88,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT04,development time,average duration of life stage,7.02,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT04,development time,average duration of life stage,6.14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Prachuab Khiri Khan Thailand,field (F3),NA,NA,decimal,11.8,99.783333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT04,development time,average duration of life stage,7.98,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT04,development time,average duration of life stage,6.44,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,PHT04,development time,average duration of life stage,5.92,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,relative humidity,relative humidity,70,percent,NA,NA,NA,NA,NA,Phuket Thailand,field (F3),NA,NA,decimal,7.89,98.398333,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,female,33,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Phanitchat et al. 2017. The influence of temperature on the developmental rate and survival of Aedes albopictus in Thailand. Southeast Asian J Trop Med Public Health 48:4,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is the number of individuals that survived from an initial n=100 at the start of the experiment,TRUE,01/01/2017
NA,REI004,development time,median duration of life stage,10.2,days,NA,NA,NA,NA,4,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Palm Beach County Florida,colony (F9),NA,0,decimal,26.71,-80.05,Aedes aegypti,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval to pupal,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Reiskind and Janairo. 2015. Late-instar Behavior of Aedes aegypti (Diptera: Culicidae) Larvae in Different Thermal and Nutritive Environments. Journal of Medical Entomology 52,10.1093/jme/tjv088,NA,NA,Veronica Andreo,veroandreo@gmail.com,originaltraitvalue corresponds with the boxplot notch for this treatment in figure 2. the total number of individuals at the start of the experiment is the number of replicates multiplied by intercator1number (n=60),TRUE,01/01/2015
NA,REI004,development time,median duration of life stage,8.8,days,NA,NA,NA,NA,4,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Palm Beach County Florida,colony (F9),NA,0,decimal,26.71,-80.05,Aedes aegypti,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval to pupal,male,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Reiskind and Janairo. 2015. Late-instar Behavior of Aedes aegypti (Diptera: Culicidae) Larvae in Different Thermal and Nutritive Environments. Journal of Medical Entomology 52,10.1093/jme/tjv088,NA,NA,Veronica Andreo,veroandreo@gmail.com,originaltraitvalue corresponds with the boxplot notch for this treatment in figure 2. the total number of individuals at the start of the experiment is the number of replicates multiplied by intercator1number (n=60),TRUE,01/01/2015
NA,REI004,development time,median duration of life stage,6.5,days,NA,NA,NA,NA,4,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Palm Beach County Florida,colony (F9),NA,0,decimal,26.71,-80.05,Aedes aegypti,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval to pupal,female,24.8,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Reiskind and Janairo. 2015. Late-instar Behavior of Aedes aegypti (Diptera: Culicidae) Larvae in Different Thermal and Nutritive Environments. Journal of Medical Entomology 52,10.1093/jme/tjv088,NA,NA,Veronica Andreo,veroandreo@gmail.com,originaltraitvalue corresponds with the boxplot notch for this treatment in figure 2. the total number of individuals at the start of the experiment is the number of replicates multiplied by intercator1number (n=60),TRUE,01/01/2015
NA,REI004,development time,median duration of life stage,5.7,days,NA,NA,NA,NA,4,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Palm Beach County Florida,colony (F9),NA,0,decimal,26.71,-80.05,Aedes aegypti,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval to pupal,male,24.8,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Reiskind and Janairo. 2015. Late-instar Behavior of Aedes aegypti (Diptera: Culicidae) Larvae in Different Thermal and Nutritive Environments. Journal of Medical Entomology 52,10.1093/jme/tjv088,NA,NA,Veronica Andreo,veroandreo@gmail.com,originaltraitvalue corresponds with the boxplot notch for this treatment in figure 2. the total number of individuals at the start of the experiment is the number of replicates multiplied by intercator1number (n=60),TRUE,01/01/2015
NA,REI004,development time,median duration of life stage,5.6,days,NA,NA,NA,NA,4,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Palm Beach County Florida,colony (F9),NA,0,decimal,26.71,-80.05,Aedes aegypti,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval to pupal,female,28.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Reiskind and Janairo. 2015. Late-instar Behavior of Aedes aegypti (Diptera: Culicidae) Larvae in Different Thermal and Nutritive Environments. Journal of Medical Entomology 52,10.1093/jme/tjv088,NA,NA,Veronica Andreo,veroandreo@gmail.com,originaltraitvalue corresponds with the boxplot notch for this treatment in figure 2. the total number of individuals at the start of the experiment is the number of replicates multiplied by intercator1number (n=60),TRUE,01/01/2015
NA,TEN001,survival,mean survival probability,0.24,proportion,0.06,0.05,SE,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,0.5,mg larva-1,NA,NA,NA,NA,NA,Rockingham North Carolina USA,colony,01/01/1989,2,decimal,34.938611,-79.760833,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Teng and Apperson. 2000. Development and survival of immature Aedes albopictus and Aedes triseriatus (Diptera: Culicidae) in the laboratory: effects of density food and competition on response to temperature. J Med Entomol. 37:1,10.1603/0022-2585-37.1.40,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=20),TRUE,01/01/2000
NA,TEN001,survival,mean survival probability,0.012,proportion,0.009,0.11,SE,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,0.5,mg larva-1,NA,NA,NA,NA,NA,Rockingham North Carolina USA,colony,01/01/1989,2,decimal,34.938611,-79.760833,Aedes albopictus,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,200,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Teng and Apperson. 2000. Development and survival of immature Aedes albopictus and Aedes triseriatus (Diptera: Culicidae) in the laboratory: effects of density food and competition on response to temperature. J Med Entomol. 37:1,10.1603/0022-2585-37.1.40,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=20),TRUE,01/01/2000
NA,TEN001,survival,mean survival probability,0.007,proportion,0,0,SE,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,0.5,mg larva-1,NA,NA,NA,NA,NA,Rockingham North Carolina USA,colony,01/01/1989,2,decimal,34.938611,-79.760833,Aedes albopictus,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,800,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Teng and Apperson. 2000. Development and survival of immature Aedes albopictus and Aedes triseriatus (Diptera: Culicidae) in the laboratory: effects of density food and competition on response to temperature. J Med Entomol. 37:1,10.1603/0022-2585-37.1.40,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=20),TRUE,01/01/2000
NA,TEN001,survival,mean survival probability,0.85,proportion,0.09,0.08,SE,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,0.5,mg larva-1,NA,NA,NA,NA,NA,Rockingham North Carolina USA,colony,01/01/1989,2,decimal,34.938611,-79.760833,Aedes albopictus,NA,NA,NA,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Teng and Apperson. 2000. Development and survival of immature Aedes albopictus and Aedes triseriatus (Diptera: Culicidae) in the laboratory: effects of density food and competition on response to temperature. J Med Entomol. 37:1,10.1603/0022-2585-37.1.40,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=20),TRUE,01/01/2000
NA,TEN001,survival,mean survival probability,0.08,proportion,0.012,0.013,SE,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,0.5,mg larva-1,NA,NA,NA,NA,NA,Rockingham North Carolina USA,colony,01/01/1989,2,decimal,34.938611,-79.760833,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,200,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Teng and Apperson. 2000. Development and survival of immature Aedes albopictus and Aedes triseriatus (Diptera: Culicidae) in the laboratory: effects of density food and competition on response to temperature. J Med Entomol. 37:1,10.1603/0022-2585-37.1.40,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2000
NA,TEN001,survival,mean survival probability,0.07,proportion,0.009,0.015,SE,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,0.5,mg larva-1,NA,NA,NA,NA,NA,Rockingham North Carolina USA,colony,01/01/1989,2,decimal,34.938611,-79.760833,Aedes albopictus,NA,NA,NA,56,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,800,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Teng and Apperson. 2000. Development and survival of immature Aedes albopictus and Aedes triseriatus (Diptera: Culicidae) in the laboratory: effects of density food and competition on response to temperature. J Med Entomol. 37:1,10.1603/0022-2585-37.1.40,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2000
NA,TEN001,survival,mean survival probability,0.85,proportion,0.059,0.058,SE,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,0.5,mg larva-1,NA,NA,NA,NA,NA,Rockingham North Carolina USA,colony,01/01/1989,2,decimal,34.938611,-79.760833,Aedes albopictus,NA,NA,NA,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Teng and Apperson. 2000. Development and survival of immature Aedes albopictus and Aedes triseriatus (Diptera: Culicidae) in the laboratory: effects of density food and competition on response to temperature. J Med Entomol. 37:1,10.1603/0022-2585-37.1.40,NA,NA,Veronica Andreo,veroandreo@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=20),TRUE,01/01/2000
NA,TEN001,survival,mean survival probability,0.12,proportion,0.035,0.034,SE,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,0.5,mg larva-1,NA,NA,NA,NA,NA,Rockingham North Carolina USA,colony,01/01/1989,2,decimal,34.938611,-79.760833,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,200,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Teng and Apperson. 2000. Development and survival of immature Aedes albopictus and Aedes triseriatus (Diptera: Culicidae) in the laboratory: effects of density food and competition on response to temperature. J Med Entomol. 37:1,10.1603/0022-2585-37.1.40,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2000
NA,TEN001,survival,mean survival probability,0.07,proportion,0.013,0.013,SE,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,0.5,mg larva-1,NA,NA,NA,NA,NA,Rockingham North Carolina USA,colony,01/01/1989,2,decimal,34.938611,-79.760833,Aedes albopictus,NA,NA,NA,56,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,800,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Teng and Apperson. 2000. Development and survival of immature Aedes albopictus and Aedes triseriatus (Diptera: Culicidae) in the laboratory: effects of density food and competition on response to temperature. J Med Entomol. 37:1,10.1603/0022-2585-37.1.40,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2000
NA,TEN001,survival,mean survival probability,0.63,proportion,0.071,0.078,SE,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,2,mg larva-1,NA,NA,NA,NA,NA,Rockingham North Carolina USA,colony,01/01/1989,2,decimal,34.938611,-79.760833,Aedes albopictus,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Teng and Apperson. 2000. Development and survival of immature Aedes albopictus and Aedes triseriatus (Diptera: Culicidae) in the laboratory: effects of density food and competition on response to temperature. J Med Entomol. 37:1,10.1603/0022-2585-37.1.40,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2000
NA,TEN001,survival,mean survival probability,0.22,proportion,0.024,0.027,SE,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,2,mg larva-1,NA,NA,NA,NA,NA,Rockingham North Carolina USA,colony,01/01/1989,2,decimal,34.938611,-79.760833,Aedes albopictus,NA,NA,NA,44,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,200,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Teng and Apperson. 2000. Development and survival of immature Aedes albopictus and Aedes triseriatus (Diptera: Culicidae) in the laboratory: effects of density food and competition on response to temperature. J Med Entomol. 37:1,10.1603/0022-2585-37.1.40,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2000
NA,TEN001,survival,mean survival probability,0.1,proportion,0.017,0.017,SE,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,2,mg larva-1,NA,NA,NA,NA,NA,Rockingham North Carolina USA,colony,01/01/1989,2,decimal,34.938611,-79.760833,Aedes albopictus,NA,NA,NA,80,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,800,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Teng and Apperson. 2000. Development and survival of immature Aedes albopictus and Aedes triseriatus (Diptera: Culicidae) in the laboratory: effects of density food and competition on response to temperature. J Med Entomol. 37:1,10.1603/0022-2585-37.1.40,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2000
NA,TEN001,survival,mean survival probability,0.72,proportion,0.085,0.074,SE,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,2,mg larva-1,NA,NA,NA,NA,NA,Rockingham North Carolina USA,colony,01/01/1989,2,decimal,34.938611,-79.760833,Aedes albopictus,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Teng and Apperson. 2000. Development and survival of immature Aedes albopictus and Aedes triseriatus (Diptera: Culicidae) in the laboratory: effects of density food and competition on response to temperature. J Med Entomol. 37:1,10.1603/0022-2585-37.1.40,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2000
NA,TEN001,survival,mean survival probability,0.65,proportion,0.081,0.089,SE,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,2,mg larva-1,NA,NA,NA,NA,NA,Rockingham North Carolina USA,colony,01/01/1989,2,decimal,34.938611,-79.760833,Aedes albopictus,NA,NA,NA,130,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,200,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Teng and Apperson. 2000. Development and survival of immature Aedes albopictus and Aedes triseriatus (Diptera: Culicidae) in the laboratory: effects of density food and competition on response to temperature. J Med Entomol. 37:1,10.1603/0022-2585-37.1.40,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2000
NA,TEN001,survival,mean survival probability,0.37,proportion,0.063,0.062,SE,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,2,mg larva-1,NA,NA,NA,NA,NA,Rockingham North Carolina USA,colony,01/01/1989,2,decimal,34.938611,-79.760833,Aedes albopictus,NA,NA,NA,296,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,800,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Teng and Apperson. 2000. Development and survival of immature Aedes albopictus and Aedes triseriatus (Diptera: Culicidae) in the laboratory: effects of density food and competition on response to temperature. J Med Entomol. 37:1,10.1603/0022-2585-37.1.40,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2000
NA,TEN001,survival,mean survival probability,0.81,proportion,0.079,0.072,SE,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,2,mg larva-1,NA,NA,NA,NA,NA,Rockingham North Carolina USA,colony,01/01/1989,2,decimal,34.938611,-79.760833,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,20,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Teng and Apperson. 2000. Development and survival of immature Aedes albopictus and Aedes triseriatus (Diptera: Culicidae) in the laboratory: effects of density food and competition on response to temperature. J Med Entomol. 37:1,10.1603/0022-2585-37.1.40,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2000
NA,TEN001,survival,mean survival probability,0.61,proportion,0.054,0.05,SE,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,2,mg larva-1,NA,NA,NA,NA,NA,Rockingham North Carolina USA,colony,01/01/1989,2,decimal,34.938611,-79.760833,Aedes albopictus,NA,NA,NA,122,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,200,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Teng and Apperson. 2000. Development and survival of immature Aedes albopictus and Aedes triseriatus (Diptera: Culicidae) in the laboratory: effects of density food and competition on response to temperature. J Med Entomol. 37:1,10.1603/0022-2585-37.1.40,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2000
NA,TEN001,survival,mean survival probability,0.26,proportion,0.043,0.046,SE,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of food per larva,2,mg larva-1,NA,NA,NA,NA,NA,Rockingham North Carolina USA,colony,01/01/1989,2,decimal,34.938611,-79.760833,Aedes albopictus,NA,NA,NA,208,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,800,individuals per 200 ml,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Teng and Apperson. 2000. Development and survival of immature Aedes albopictus and Aedes triseriatus (Diptera: Culicidae) in the laboratory: effects of density food and competition on response to temperature. J Med Entomol. 37:1,10.1603/0022-2585-37.1.40,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2000
NA,TEN002,survival,mean survival probability,0.17,proportion,0.07,0.06,SE,NA,6,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,proportion of conspecific larvae,NA,0.25,NA,NA,NA,NA,NA,NA,Rockingham North Carolina USA,colony,01/01/1989,2,decimal,34.938611,-79.760833,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,larval,NA,NA,NA,figure 5,Teng and Apperson. 2000. Development and survival of immature Aedes albopictus and Aedes triseriatus (Diptera: Culicidae) in the laboratory: effects of density food and competition on response to temperature. J Med Entomol. 37:1,10.1603/0022-2585-37.1.40,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2000
NA,TEN002,survival,mean survival probability,0.15,proportion,0.04,0.04,SE,NA,6,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,proportion of conspecific larvae,NA,0.5,NA,NA,NA,NA,NA,NA,Rockingham North Carolina USA,colony,01/01/1989,2,decimal,34.938611,-79.760833,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,larval,NA,NA,NA,figure 5,Teng and Apperson. 2000. Development and survival of immature Aedes albopictus and Aedes triseriatus (Diptera: Culicidae) in the laboratory: effects of density food and competition on response to temperature. J Med Entomol. 37:1,10.1603/0022-2585-37.1.40,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2000
NA,TEN002,survival,mean survival probability,0.21,proportion,0.06,0.06,SE,NA,6,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,proportion of conspecific larvae,NA,0.75,NA,NA,NA,NA,NA,NA,Rockingham North Carolina USA,colony,01/01/1989,2,decimal,34.938611,-79.760833,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,larval,NA,NA,NA,figure 5,Teng and Apperson. 2000. Development and survival of immature Aedes albopictus and Aedes triseriatus (Diptera: Culicidae) in the laboratory: effects of density food and competition on response to temperature. J Med Entomol. 37:1,10.1603/0022-2585-37.1.40,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2000
NA,TEN002,survival,mean survival probability,0.26,proportion,0.05,0.05,SE,NA,6,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,proportion of conspecific larvae,NA,1,NA,NA,NA,NA,NA,NA,Rockingham North Carolina USA,colony,01/01/1989,2,decimal,34.938611,-79.760833,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,larval,NA,NA,NA,figure 5,Teng and Apperson. 2000. Development and survival of immature Aedes albopictus and Aedes triseriatus (Diptera: Culicidae) in the laboratory: effects of density food and competition on response to temperature. J Med Entomol. 37:1,10.1603/0022-2585-37.1.40,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2000
NA,TEN002,survival,mean survival probability,0.47,proportion,0.08,0.09,SE,NA,6,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,proportion of conspecific larvae,NA,0.25,NA,NA,NA,NA,NA,NA,Rockingham North Carolina USA,colony,01/01/1989,2,decimal,34.938611,-79.760833,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,larval,NA,NA,NA,figure 5,Teng and Apperson. 2000. Development and survival of immature Aedes albopictus and Aedes triseriatus (Diptera: Culicidae) in the laboratory: effects of density food and competition on response to temperature. J Med Entomol. 37:1,10.1603/0022-2585-37.1.40,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2000
NA,TEN002,survival,mean survival probability,0.45,proportion,0.09,0.09,SE,NA,6,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,proportion of conspecific larvae,NA,0.5,NA,NA,NA,NA,NA,NA,Rockingham North Carolina USA,colony,01/01/1989,2,decimal,34.938611,-79.760833,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,larval,NA,NA,NA,figure 5,Teng and Apperson. 2000. Development and survival of immature Aedes albopictus and Aedes triseriatus (Diptera: Culicidae) in the laboratory: effects of density food and competition on response to temperature. J Med Entomol. 37:1,10.1603/0022-2585-37.1.40,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2000
NA,TEN002,survival,mean survival probability,0.46,proportion,0.07,0.08,SE,NA,6,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,proportion of conspecific larvae,NA,0.75,NA,NA,NA,NA,NA,NA,Rockingham North Carolina USA,colony,01/01/1989,2,decimal,34.938611,-79.760833,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,larval,NA,NA,NA,figure 5,Teng and Apperson. 2000. Development and survival of immature Aedes albopictus and Aedes triseriatus (Diptera: Culicidae) in the laboratory: effects of density food and competition on response to temperature. J Med Entomol. 37:1,10.1603/0022-2585-37.1.40,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2000
NA,TEN002,survival,mean survival probability,0.44,proportion,0.07,0.07,SE,NA,6,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,proportion of conspecific larvae,NA,1,NA,NA,NA,NA,NA,NA,Rockingham North Carolina USA,colony,01/01/1989,2,decimal,34.938611,-79.760833,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,larval,NA,NA,NA,figure 5,Teng and Apperson. 2000. Development and survival of immature Aedes albopictus and Aedes triseriatus (Diptera: Culicidae) in the laboratory: effects of density food and competition on response to temperature. J Med Entomol. 37:1,10.1603/0022-2585-37.1.40,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2000
NA,TEN002,survival,mean survival probability,0.59,proportion,0.1,0.1,SE,NA,6,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,proportion of conspecific larvae,NA,0.25,NA,NA,NA,NA,NA,NA,Rockingham North Carolina USA,colony,01/01/1989,2,decimal,34.938611,-79.760833,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,larval,NA,NA,NA,figure 5,Teng and Apperson. 2000. Development and survival of immature Aedes albopictus and Aedes triseriatus (Diptera: Culicidae) in the laboratory: effects of density food and competition on response to temperature. J Med Entomol. 37:1,10.1603/0022-2585-37.1.40,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2000
NA,TEN002,survival,mean survival probability,0.44,proportion,0.07,0.07,SE,NA,6,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,proportion of conspecific larvae,NA,0.5,NA,NA,NA,NA,NA,NA,Rockingham North Carolina USA,colony,01/01/1989,2,decimal,34.938611,-79.760833,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,larval,NA,NA,NA,figure 5,Teng and Apperson. 2000. Development and survival of immature Aedes albopictus and Aedes triseriatus (Diptera: Culicidae) in the laboratory: effects of density food and competition on response to temperature. J Med Entomol. 37:1,10.1603/0022-2585-37.1.40,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2000
NA,TEN002,survival,mean survival probability,0.44,proportion,0.07,0.07,SE,NA,6,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,proportion of conspecific larvae,NA,0.75,NA,NA,NA,NA,NA,NA,Rockingham North Carolina USA,colony,01/01/1989,2,decimal,34.938611,-79.760833,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,larval,NA,NA,NA,figure 5,Teng and Apperson. 2000. Development and survival of immature Aedes albopictus and Aedes triseriatus (Diptera: Culicidae) in the laboratory: effects of density food and competition on response to temperature. J Med Entomol. 37:1,10.1603/0022-2585-37.1.40,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2000
NA,TEN002,survival,mean survival probability,0.34,proportion,0.07,0.06,SE,NA,6,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,proportion of conspecific larvae,NA,1,NA,NA,NA,NA,NA,NA,Rockingham North Carolina USA,colony,01/01/1989,2,decimal,34.938611,-79.760833,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,larval,NA,NA,NA,figure 5,Teng and Apperson. 2000. Development and survival of immature Aedes albopictus and Aedes triseriatus (Diptera: Culicidae) in the laboratory: effects of density food and competition on response to temperature. J Med Entomol. 37:1,10.1603/0022-2585-37.1.40,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2000
NA,NA,longevity,mean duration of life stage  (control),25.61,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2018
NA,NA,longevity,mean duration of life stage  (control),41.58,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2018
NA,NA,longevity,mean duration of life stage  (control),26.54,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2018
NA,NA,longevity,mean duration of life stage  (control),48.07,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2018
NA,NA,longevity,mean duration of life stage  (control),52.53,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2018
NA,NA,longevity,mean duration of life stage  (control),37.49,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2018
NA,NA,longevity,mean duration of life stage  (control),28.77,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2018
NA,NA,longevity,mean duration of life stage  (control),21.72,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2018
NA,NA,longevity,mean duration of life stage  (control),16.15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2018
NA,NA,longevity,mean duration of life stage  (control),20.97,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2018
NA,NA,longevity,mean duration of life stage  (control),11.32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,36,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2018
NA,NA,longevity (exposed),replicate-level mean duration of life stage,27.47,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2018
NA,NA,longevity (exposed),replicate-level mean duration of life stage,31.37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2018
NA,NA,longevity (exposed),replicate-level mean duration of life stage,24.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2018
NA,NA,longevity (exposed),replicate-level mean duration of life stage,29.51,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2018
NA,NA,longevity (exposed),replicate-level mean duration of life stage,80.19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2018
NA,NA,longevity (exposed),replicate-level mean duration of life stage,93.18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2018
NA,NA,longevity (exposed),replicate-level mean duration of life stage,29.33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2018
NA,NA,longevity (exposed),replicate-level mean duration of life stage,78.7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2018
NA,NA,longevity (exposed),replicate-level mean duration of life stage,22.65,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2018
NA,NA,longevity (exposed),replicate-level mean duration of life stage,25.61,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2018
NA,NA,longevity (exposed),replicate-level mean duration of life stage,19.86,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2018
NA,NA,longevity (exposed),replicate-level mean duration of life stage,21.16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2018
NA,NA,longevity (exposed),replicate-level mean duration of life stage,8.35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,36,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2018
NA,NA,longevity (exposed),replicate-level mean duration of life stage,12.99,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,36,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2018
NA,NA,longevity (exposed),replicate-level mean duration of life stage,0.56,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2018
NA,NA,EIR (extrinsic incubation rate),EIR is the inverse of the time required to reach half of the average proportion infectious (days 21) for each temperature,0.001,days-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2018
NA,NA,EIR (extrinsic incubation rate),EIR is the inverse of the time required to reach half of the average proportion infectious (days 21) for each temperature,0.001,days-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2018
NA,NA,EIR (extrinsic incubation rate),EIR is the inverse of the time required to reach half of the average proportion infectious (days 21) for each temperature,0.001,days-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,20,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2018
NA,NA,EIR (extrinsic incubation rate),EIR is the inverse of the time required to reach half of the average proportion infectious (days 21) for each temperature,0.055,days-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,20,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2018
NA,NA,EIR (extrinsic incubation rate),EIR is the inverse of the time required to reach half of the average proportion infectious (days 21) for each temperature,0.063,days-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2018
NA,NA,EIR (extrinsic incubation rate),EIR is the inverse of the time required to reach half of the average proportion infectious (days 21) for each temperature,0.076,days-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2018
NA,NA,EIR (extrinsic incubation rate),EIR is the inverse of the time required to reach half of the average proportion infectious (days 21) for each temperature,0.124,days-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2018
NA,NA,EIR (extrinsic incubation rate),EIR is the inverse of the time required to reach half of the average proportion infectious (days 21) for each temperature,0.138,days-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2018
NA,NA,EIR (extrinsic incubation rate),EIR is the inverse of the time required to reach half of the average proportion infectious (days 21) for each temperature,0.144,days-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2018
NA,NA,EIR (extrinsic incubation rate),EIR is the inverse of the time required to reach half of the average proportion infectious (days 21) for each temperature,0.224,days-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2018
NA,NA,EIR (extrinsic incubation rate),EIR is the inverse of the time required to reach half of the average proportion infectious (days 21) for each temperature,0.173,days-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2018
NA,NA,EIR (extrinsic incubation rate),EIR is the inverse of the time required to reach half of the average proportion infectious (days 21) for each temperature,0.228,days-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2018
NA,NA,EIR (extrinsic incubation rate),EIR is the inverse of the time required to reach half of the average proportion infectious (days 21) for each temperature,0.257,days-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,36,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2018
NA,NA,EIR (extrinsic incubation rate),EIR is the inverse of the time required to reach half of the average proportion infectious (days 21) for each temperature,0.283,days-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,36,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2018
NA,NA,EIR (extrinsic incubation rate),EIR is the inverse of the time required to reach half of the average proportion infectious (days 21) for each temperature,0,days-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2018
NA,NA,EIR (extrinsic incubation rate),EIR is the inverse of the time required to reach half of the average proportion infectious (days 21) for each temperature,0.668,days-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2018
NA,NA,vector competence,replicate-level average proportion of ZIKA virus-exposed mosquitoes with virus in their saliva across temperatures,0,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,Mosquitos were exposed to ZIKV isolate MEX1-44 obtained from the University of Texas Medical Branch (UTMB) Arbovirus Reference Collection. The virus was isolated in January 2016 from a field-caught Ae. aegypti mosquito from Tapachula Chiapas Mexico. interactor1number is the number of individuals infected out of n=40 tested,TRUE,01/01/2018
NA,NA,vector competence,replicate-level average proportion of ZIKA virus-exposed mosquitoes with virus in their saliva across temperatures,0,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,Mosquitos were exposed to ZIKV isolate MEX1-44 obtained from the University of Texas Medical Branch (UTMB) Arbovirus Reference Collection. The virus was isolated in January 2016 from a field-caught Ae. aegypti mosquito from Tapachula Chiapas Mexico. interactor1number is the number of individuals infected out of n=40 tested,TRUE,01/01/2018
NA,NA,vector competence,replicate-level average proportion of ZIKA virus-exposed mosquitoes with virus in their saliva across temperatures,0,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,20,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,Mosquitos were exposed to ZIKV isolate MEX1-44 obtained from the University of Texas Medical Branch (UTMB) Arbovirus Reference Collection. The virus was isolated in January 2016 from a field-caught Ae. aegypti mosquito from Tapachula Chiapas Mexico. interactor1number is the number of individuals infected out of n=40 tested,TRUE,01/01/2018
NA,NA,vector competence,replicate-level average proportion of ZIKA virus-exposed mosquitoes with virus in their saliva across temperatures,0,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,20,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,Mosquitos were exposed to ZIKV isolate MEX1-44 obtained from the University of Texas Medical Branch (UTMB) Arbovirus Reference Collection. The virus was isolated in January 2016 from a field-caught Ae. aegypti mosquito from Tapachula Chiapas Mexico. interactor1number is the number of individuals infected out of n=40 tested,TRUE,01/01/2018
NA,NA,vector competence,replicate-level average proportion of ZIKA virus-exposed mosquitoes with virus in their saliva across temperatures,0.0295,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,Mosquitos were exposed to ZIKV isolate MEX1-44 obtained from the University of Texas Medical Branch (UTMB) Arbovirus Reference Collection. The virus was isolated in January 2016 from a field-caught Ae. aegypti mosquito from Tapachula Chiapas Mexico. interactor1number is the number of individuals infected out of n=40 tested,TRUE,01/01/2018
NA,NA,vector competence,replicate-level average proportion of ZIKA virus-exposed mosquitoes with virus in their saliva across temperatures,0.0437,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,Mosquitos were exposed to ZIKV isolate MEX1-44 obtained from the University of Texas Medical Branch (UTMB) Arbovirus Reference Collection. The virus was isolated in January 2016 from a field-caught Ae. aegypti mosquito from Tapachula Chiapas Mexico. interactor1number is the number of individuals infected out of n=40 tested,TRUE,01/01/2018
NA,NA,vector competence,replicate-level average proportion of ZIKA virus-exposed mosquitoes with virus in their saliva across temperatures,0.2008,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,Mosquitos were exposed to ZIKV isolate MEX1-44 obtained from the University of Texas Medical Branch (UTMB) Arbovirus Reference Collection. The virus was isolated in January 2016 from a field-caught Ae. aegypti mosquito from Tapachula Chiapas Mexico. interactor1number is the number of individuals infected out of n=40 tested,TRUE,01/01/2018
NA,NA,vector competence,replicate-level average proportion of ZIKA virus-exposed mosquitoes with virus in their saliva across temperatures,0.2576,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,Mosquitos were exposed to ZIKV isolate MEX1-44 obtained from the University of Texas Medical Branch (UTMB) Arbovirus Reference Collection. The virus was isolated in January 2016 from a field-caught Ae. aegypti mosquito from Tapachula Chiapas Mexico. interactor1number is the number of individuals infected out of n=40 tested,TRUE,01/01/2018
NA,NA,vector competence,replicate-level average proportion of ZIKA virus-exposed mosquitoes with virus in their saliva across temperatures,0.1298,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,Mosquitos were exposed to ZIKV isolate MEX1-44 obtained from the University of Texas Medical Branch (UTMB) Arbovirus Reference Collection. The virus was isolated in January 2016 from a field-caught Ae. aegypti mosquito from Tapachula Chiapas Mexico. interactor1number is the number of individuals infected out of n=40 tested,TRUE,01/01/2018
NA,NA,vector competence,replicate-level average proportion of ZIKA virus-exposed mosquitoes with virus in their saliva across temperatures,0.2015,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,Mosquitos were exposed to ZIKV isolate MEX1-44 obtained from the University of Texas Medical Branch (UTMB) Arbovirus Reference Collection. The virus was isolated in January 2016 from a field-caught Ae. aegypti mosquito from Tapachula Chiapas Mexico. interactor1number is the number of individuals infected out of n=40 tested,TRUE,01/01/2018
NA,NA,vector competence,replicate-level average proportion of ZIKA virus-exposed mosquitoes with virus in their saliva across temperatures,0.1867,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,Mosquitos were exposed to ZIKV isolate MEX1-44 obtained from the University of Texas Medical Branch (UTMB) Arbovirus Reference Collection. The virus was isolated in January 2016 from a field-caught Ae. aegypti mosquito from Tapachula Chiapas Mexico. interactor1number is the number of individuals infected out of n=40 tested,TRUE,01/01/2018
NA,NA,vector competence,replicate-level average proportion of ZIKA virus-exposed mosquitoes with virus in their saliva across temperatures,0.0563,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,36,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,Mosquitos were exposed to ZIKV isolate MEX1-44 obtained from the University of Texas Medical Branch (UTMB) Arbovirus Reference Collection. The virus was isolated in January 2016 from a field-caught Ae. aegypti mosquito from Tapachula Chiapas Mexico. interactor1number is the number of individuals infected out of n=40 tested,TRUE,01/01/2018
NA,NA,vector competence,replicate-level average proportion of ZIKA virus-exposed mosquitoes with virus in their saliva across temperatures,0.1176,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,36,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,Mosquitos were exposed to ZIKV isolate MEX1-44 obtained from the University of Texas Medical Branch (UTMB) Arbovirus Reference Collection. The virus was isolated in January 2016 from a field-caught Ae. aegypti mosquito from Tapachula Chiapas Mexico. interactor1number is the number of individuals infected out of n=40 tested,TRUE,01/01/2018
NA,NA,vector competence,replicate-level average proportion of ZIKA virus-exposed mosquitoes with virus in their saliva across temperatures,0.1002,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,Mosquitos were exposed to ZIKV isolate MEX1-44 obtained from the University of Texas Medical Branch (UTMB) Arbovirus Reference Collection. The virus was isolated in January 2016 from a field-caught Ae. aegypti mosquito from Tapachula Chiapas Mexico. interactor1number is the number of individuals infected out of n=40 tested,TRUE,01/01/2018
NA,NA,vector competence,replicate-level average proportion of ZIKA virus-exposed mosquitoes with virus in their saliva across temperatures,0,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Tapachula Chiapas Mexico,field (F3),01/04/2016,3,decimal,14.9,-92.266667,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,38,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Tesla et al. 2018. Temperature drives Zika virus transmission: evidence from empirical and mathematical models. Proceedings B 285:1884,10.1098/rspb.2018.0795,NA,NA,Paul Huxley,phuxly@gmail.com,Mosquitos were exposed to ZIKV isolate MEX1-44 obtained from the University of Texas Medical Branch (UTMB) Arbovirus Reference Collection. The virus was isolated in January 2016 from a field-caught Ae. aegypti mosquito from Tapachula Chiapas Mexico. interactor1number is the number of individuals infected out of n=40 tested,TRUE,01/01/2018
NA,TC01,infection rate,percentage of mosquitoes that became infected with ZIKV (proportion positive bodies),55,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC01,infection rate,percentage of mosquitoes that became infected with ZIKV (proportion positive bodies),70.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,10,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC01,infection rate,percentage of mosquitoes that became infected with ZIKV (proportion positive bodies),78.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,13,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC01,dissemination rate,percentage of mosquitoes that developed disseminated infection (number positive legs/number infected),36.4,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC01,dissemination rate,percentage of mosquitoes that developed disseminated infection (number positive legs/number infected),41.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,10,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC01,dissemination rate,percentage of mosquitoes that developed disseminated infection (number positive legs/number infected),72.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,13,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC01,infection rate,percentage of mosquitoes that became infected with ZIKV (proportion positive bodies),62.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC01,infection rate,percentage of mosquitoes that became infected with ZIKV (proportion positive bodies),82.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,10,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,23,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC01,infection rate,percentage of mosquitoes that became infected with ZIKV (proportion positive bodies),89.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,13,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC01,dissemination rate,percentage of mosquitoes that developed disseminated infection (number positive legs/number infected),18.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC01,dissemination rate,percentage of mosquitoes that developed disseminated infection (number positive legs/number infected),21.1,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,10,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,23,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC01,dissemination rate,percentage of mosquitoes that developed disseminated infection (number positive legs/number infected),29.4,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,13,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC01,infection rate,percentage of mosquitoes that became infected with ZIKV (proportion positive bodies),50,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC01,infection rate,percentage of mosquitoes that became infected with ZIKV (proportion positive bodies),44,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,10,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC01,infection rate,percentage of mosquitoes that became infected with ZIKV (proportion positive bodies),56.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,13,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,23,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC01,dissemination rate,percentage of mosquitoes that developed disseminated infection (number positive legs/number infected),8.3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC01,dissemination rate,percentage of mosquitoes that developed disseminated infection (number positive legs/number infected),18.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,10,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC01,dissemination rate,percentage of mosquitoes that developed disseminated infection (number positive legs/number infected),46.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,13,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,23,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC01,infection rate,percentage of mosquitoes that became infected with ZIKV (proportion positive bodies),45,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC01,dissemination rate,percentage of mosquitoes that developed disseminated infection (number positive legs/number infected),66.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC02,infection rate,proportion of mosquitoes that became infected with ZIKV (proportion positive bodies),0.5,proportion,0.3002,0.7015,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC02,infection rate,proportion of mosquitoes that became infected with ZIKV (proportion positive bodies),0.45,proportion,0.2327,0.6678,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC02,infection rate,proportion of mosquitoes that became infected with ZIKV (proportion positive bodies),0.63,proportion,0.4688,0.7892,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC02,infection rate,proportion of mosquitoes that became infected with ZIKV (proportion positive bodies),0.55,proportion,0.3322,0.7673,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC02,infection rate,proportion of mosquitoes that became infected with ZIKV (proportion positive bodies),0.44,proportion,0.2462,0.6341,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,10,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC02,infection rate,proportion of mosquitoes that became infected with ZIKV (proportion positive bodies),0.53,proportion,0.2934,0.7673,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,10,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC02,infection rate,proportion of mosquitoes that became infected with ZIKV (proportion positive bodies),0.83,proportion,0.6695,0.9831,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,10,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC02,infection rate,proportion of mosquitoes that became infected with ZIKV (proportion positive bodies),0.7,proportion,0.4907,0.9224,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,10,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC02,infection rate,proportion of mosquitoes that became infected with ZIKV (proportion positive bodies),0.56,proportion,0.3626,0.769,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,13,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC02,infection rate,proportion of mosquitoes that became infected with ZIKV (proportion positive bodies),0.73,proportion,0.511,0.9562,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,13,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC02,infection rate,proportion of mosquitoes that became infected with ZIKV (proportion positive bodies),0.9,proportion,0.7572,1.032,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,13,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC02,infection rate,proportion of mosquitoes that became infected with ZIKV (proportion positive bodies),0.79,proportion,0.57,1,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,13,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC02,dissemination rate,proportion of mosquitoes that developed a disseminated infection (positive legs/total),0.04,proportion,-0.0367,0.1233,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC02,dissemination rate,proportion of mosquitoes that developed a disseminated infection (positive legs/total),0.3,proportion,0.1017,0.5017,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC02,dissemination rate,proportion of mosquitoes that developed a disseminated infection (positive legs/total),0.12,proportion,0.01,0.2233,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC02,dissemination rate,proportion of mosquitoes that developed a disseminated infection (positive legs/total),0.2,proportion,0.025,0.3767,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC02,dissemination rate,proportion of mosquitoes that developed a disseminated infection (positive legs/total),0.08,proportion,-0.025,0.1883,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,10,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC02,dissemination rate,proportion of mosquitoes that developed a disseminated infection (positive legs/total),0.3,proportion,0.08,0.51,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,10,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC02,dissemination rate,proportion of mosquitoes that developed a disseminated infection (positive legs/total),0.18,proportion,0.02,0.33,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,10,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC02,dissemination rate,proportion of mosquitoes that developed a disseminated infection (positive legs/total),0.3,proportion,0.08,0.5117,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,10,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC02,dissemination rate,proportion of mosquitoes that developed a disseminated infection (positive legs/total),0.26,proportion,0.0817,0.4433,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,13,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC02,dissemination rate,proportion of mosquitoes that developed a disseminated infection (positive legs/total),0.53,proportion,0.285,0.7883,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,13,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC02,dissemination rate,proportion of mosquitoes that developed a disseminated infection (positive legs/total),0.26,proportion,0.0667,0.4633,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,13,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC02,dissemination rate,proportion of mosquitoes that developed a disseminated infection (positive legs/total),0.57,proportion,0.315,0.83,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,13,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC02,dissemination rate,proportion of mosquitoes that developed a disseminated infection (proportion positive legs/positive bodies),0.08,proportion,-0.0713,0.2403,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC02,dissemination rate,proportion of mosquitoes that developed a disseminated infection (proportion positive legs/positive bodies),0.67,proportion,0.3605,0.9756,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC02,dissemination rate,proportion of mosquitoes that developed a disseminated infection (proportion positive legs/positive bodies),0.18,proportion,0.0224,0.3442,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC02,dissemination rate,proportion of mosquitoes that developed a disseminated infection (proportion positive legs/positive bodies),0.36,proportion,0.0815,0.6477,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC02,dissemination rate,proportion of mosquitoes that developed a disseminated infection (proportion positive legs/positive bodies),0.18,proportion,-0.0428,0.4114,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,10,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC02,dissemination rate,proportion of mosquitoes that developed a disseminated infection (proportion positive legs/positive bodies),0.55,proportion,0.2322,0.8819,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,10,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC02,dissemination rate,proportion of mosquitoes that developed a disseminated infection (proportion positive legs/positive bodies),0.21,proportion,0.0305,0.3951,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,10,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC02,dissemination rate,proportion of mosquitoes that developed a disseminated infection (proportion positive legs/positive bodies),0.42,proportion,0.1405,0.6965,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,10,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC02,dissemination rate,proportion of mosquitoes that developed a disseminated infection (proportion positive legs/positive bodies),0.46,proportion,0.1914,0.7332,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,13,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC02,dissemination rate,proportion of mosquitoes that developed a disseminated infection (proportion positive legs/positive bodies),0.73,proportion,0.4664,0.9919,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,13,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC02,dissemination rate,proportion of mosquitoes that developed a disseminated infection (proportion positive legs/positive bodies),0.29,proportion,0.0794,0.5132,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,13,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,TC02,dissemination rate,proportion of mosquitoes that developed a disseminated infection (proportion positive legs/positive bodies),0.73,proportion,0.4664,0.9898,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,13,days,NA,NA,NA,NA,NA,Baton Rouge Louisiana USA,colony,NA,NA,decimal,30.45,-91.140278,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Tramonte and Christofferson 2019. Investigating the probability of establishment of Zika virus and detection through mosquito surveillance under different temperature conditions. PLoS ONE 14(3): e0214306.,10.1371/journal.pone.0214306,NA,NA,Daniele Da Re,dare.daniele@gmail.com,mosquitoes were exposed to ZKV PRVABC59 strain,TRUE,01/01/2019
NA,PHX61,longevity,mean duration of life stage,30,days,15.8,15.8,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Chiang Mai Thailand,NA,NA,0,decimal,18.795278,98.998611,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Tsuda et al. 1994. A comparative study on life table characteristics of two strains of Aedes albopictus from Japan and Thailand. Trop. Med. 36: 1,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1994
NA,PHX61,longevity,mean duration of life stage,31.7,days,16.3,16.3,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Nagasaki Japan,NA,NA,0,decimal,32.744722,129.873611,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Tsuda et al. 1994. A comparative study on life table characteristics of two strains of Aedes albopictus from Japan and Thailand. Trop. Med. 36: 1,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1994
NA,PHX61b,fecundity,mean lifetime eggs,73.5,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Chiang Mai Thailand,NA,NA,0,decimal,18.795278,98.998611,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Tsuda et al. 1994. A comparative study on life table characteristics of two strains of Aedes albopictus from Japan and Thailand. Trop. Med. 36: 1,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1994
NA,PHX61b,fecundity,mean lifetime eggs,173.2,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Nagasaki Japan,NA,NA,0,decimal,32.744722,129.873611,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Tsuda et al. 1994. A comparative study on life table characteristics of two strains of Aedes albopictus from Japan and Thailand. Trop. Med. 36: 1,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1994
NA,REI004,development time,median duration of life stage,4.8,days,NA,NA,NA,NA,4,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Palm Beach County Florida,colony (F9),NA,0,decimal,26.71,-80.05,Aedes aegypti,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval to pupal,male,28.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Reiskind and Janairo. 2015. Late-instar Behavior of Aedes aegypti (Diptera: Culicidae) Larvae in Different Thermal and Nutritive Environments. Journal of Medical Entomology 52,10.1093/jme/tjv088,NA,NA,Veronica Andreo,veroandreo@gmail.com,originaltraitvalue corresponds with the boxplot notch for this treatment in figure 2. the total number of individuals at the start of the experiment is the number of replicates multiplied by intercator1number (n=60),TRUE,01/01/2015
NA,REI002,development time,mean duration of life stage,50.1,days,4,4,SEM,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,1,NA,NA,NA,NA,NA,NA,Tulsa Oklahoma,field (F1),01/06/2009,4,decimal,36.131389,-95.937222,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,14.3,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,REI002,development time,mean duration of life stage,19.8,days,0.9,0.6,SEM,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,1,NA,NA,NA,NA,NA,NA,Tulsa Oklahoma,field (F1),01/06/2009,4,decimal,36.131389,-95.937222,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,19.5,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,REI002,development time,mean duration of life stage,43.3,days,0.5,0.4,SEM,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,2,NA,NA,NA,NA,NA,NA,Tulsa Oklahoma,field (F1),01/06/2009,4,decimal,36.131389,-95.937222,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,14.3,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,PHX61,longevity,mean duration of life stage,16.9,days,10.1,10.1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Chiang Mai Thailand,NA,NA,0,decimal,18.795278,98.998611,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Tsuda et al. 1994. A comparative study on life table characteristics of two strains of Aedes albopictus from Japan and Thailand. Trop. Med. 36: 1,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1994
NA,PHX61,longevity,mean duration of life stage,28.7,days,12.8,12.8,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Nagasaki Japan,NA,NA,0,decimal,32.744722,129.873611,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Tsuda et al. 1994. A comparative study on life table characteristics of two strains of Aedes albopictus from Japan and Thailand. Trop. Med. 36: 1,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1994
NA,PHX61e,blood feeding frequency,mean lifetime blood feeds individual-1,2.6,blood meals individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Chiang Mai Thailand,NA,NA,0,decimal,18.795278,98.998611,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Tsuda et al. 1994. A comparative study on life table characteristics of two strains of Aedes albopictus from Japan and Thailand. Trop. Med. 36: 1,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1994
NA,PHX61e,blood feeding frequency,mean lifetime blood feeds individual-1,3.3,blood meals individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Nagasaki Japan,NA,NA,0,decimal,32.744722,129.873611,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Tsuda et al. 1994. A comparative study on life table characteristics of two strains of Aedes albopictus from Japan and Thailand. Trop. Med. 36: 1,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1994
NA,PHX61f,reproductive efficiency,mean eggs per blood meal,73.5,eggs individual-1 bloodmeal-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Chiang Mai Thailand,NA,NA,0,decimal,18.795278,98.998611,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Tsuda et al. 1994. A comparative study on life table characteristics of two strains of Aedes albopictus from Japan and Thailand. Trop. Med. 36: 1,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1994
NA,PHX61f,reproductive efficiency,mean eggs per blood meal,173.2,eggs individual-1 bloodmeal-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Nagasaki Japan,NA,NA,0,decimal,32.744722,129.873611,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Tsuda et al. 1994. A comparative study on life table characteristics of two strains of Aedes albopictus from Japan and Thailand. Trop. Med. 36: 1,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1994
NA,REI002,development time,mean duration of life stage,13,days,0.3,0.2,SEM,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,1,NA,NA,NA,NA,NA,NA,Tulsa Oklahoma,field (F1),01/06/2009,4,decimal,36.131389,-95.937222,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,23.6,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,REI002,development time,mean duration of life stage,9.8,days,0.1,0.2,SEM,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,1,NA,NA,NA,NA,NA,NA,Tulsa Oklahoma,field (F1),01/06/2009,4,decimal,36.131389,-95.937222,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,27.4,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,REI002,development time,mean duration of life stage,16.2,days,0.3,0.3,SEM,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,2,NA,NA,NA,NA,NA,NA,Tulsa Oklahoma,field (F1),01/06/2009,4,decimal,36.131389,-95.937222,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,19.5,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,REI002,development time,mean duration of life stage,44.7,days,1.8,1.8,SEM,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,1,NA,NA,NA,NA,NA,NA,Tulsa Oklahoma,field (F1),01/06/2009,4,decimal,36.131389,-95.937222,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,14.3,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,REI002,development time,mean duration of life stage,19.2,days,1.1,1.1,SEM,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,1,NA,NA,NA,NA,NA,NA,Tulsa Oklahoma,field (F1),01/06/2009,4,decimal,36.131389,-95.937222,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,19.5,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,REI002,development time,mean duration of life stage,10.7,days,0.2,0.2,SEM,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,2,NA,NA,NA,NA,NA,NA,Tulsa Oklahoma,field (F1),01/06/2009,4,decimal,36.131389,-95.937222,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,23.6,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,REI002,development time,mean duration of life stage,11.7,days,0.1,0.2,SEM,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,1,NA,NA,NA,NA,NA,NA,Tulsa Oklahoma,field (F1),01/06/2009,4,decimal,36.131389,-95.937222,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,23.6,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,REI002,development time,mean duration of life stage,8.6,days,0.7,0.1,SEM,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,1,NA,NA,NA,NA,NA,NA,Tulsa Oklahoma,field (F1),01/06/2009,4,decimal,36.131389,-95.937222,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,27.4,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,REI002,development time,mean duration of life stage,8.9,days,0.2,0.3,SEM,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,2,NA,NA,NA,NA,NA,NA,Tulsa Oklahoma,field (F1),01/06/2009,4,decimal,36.131389,-95.937222,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,27.4,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,REI002,development time,mean duration of life stage,41.6,days,1.5,1.5,SEM,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,2,NA,NA,NA,NA,NA,NA,Tulsa Oklahoma,field (F1),01/06/2009,4,decimal,36.131389,-95.937222,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,14.3,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,REI002,development time,mean duration of life stage,15.6,days,0.3,0.2,SEM,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,2,NA,NA,NA,NA,NA,NA,Tulsa Oklahoma,field (F1),01/06/2009,4,decimal,36.131389,-95.937222,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,19.5,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,REI002,development time,mean duration of life stage,10.2,days,0.1,0.2,SEM,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,2,NA,NA,NA,NA,NA,NA,Tulsa Oklahoma,field (F1),01/06/2009,4,decimal,36.131389,-95.937222,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,23.6,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,REI002,development time,mean duration of life stage,8.5,days,0.3,0.5,SEM,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,2,NA,NA,NA,NA,NA,NA,Tulsa Oklahoma,field (F1),01/06/2009,4,decimal,36.131389,-95.937222,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,27.4,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,REI002,development time,mean duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,3,NA,NA,NA,NA,NA,NA,Tulsa Oklahoma,field (F1),01/06/2009,4,decimal,36.131389,-95.937222,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,14.3,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,trait value set to zero because mortality was complete at this temperature,TRUE,01/01/2012
NA,REI002,development time,mean duration of life stage,16,days,0.4,0.3,SEM,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,3,NA,NA,NA,NA,NA,NA,Tulsa Oklahoma,field (F1),01/06/2009,4,decimal,36.131389,-95.937222,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,19.5,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,REI002,development time,mean duration of life stage,10.5,days,0.3,0,SEM,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,3,NA,NA,NA,NA,NA,NA,Tulsa Oklahoma,field (F1),01/06/2009,4,decimal,36.131389,-95.937222,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,23.6,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,REI002,development time,mean duration of life stage,8.7,days,0,0.5,SEM,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,3,NA,NA,NA,NA,NA,NA,Tulsa Oklahoma,field (F1),01/06/2009,4,decimal,36.131389,-95.937222,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,27.4,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,REI002,development time,mean duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,3,NA,NA,NA,NA,NA,NA,Tulsa Oklahoma,field (F1),01/06/2009,4,decimal,36.131389,-95.937222,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,14.3,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,trait value set to zero because mortality was complete at this temperature,TRUE,01/01/2012
NA,REI002,development time,mean duration of life stage,14.7,days,0.2,0,SEM,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,3,NA,NA,NA,NA,NA,NA,Tulsa Oklahoma,field (F1),01/06/2009,4,decimal,36.131389,-95.937222,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,19.5,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,REI002,development time,mean duration of life stage,10.2,days,0.1,0,SEM,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,3,NA,NA,NA,NA,NA,NA,Tulsa Oklahoma,field (F1),01/06/2009,4,decimal,36.131389,-95.937222,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,23.6,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,REI002,development time,mean duration of life stage,8.1,days,0,0.3,SEM,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,3,NA,NA,NA,NA,NA,NA,Tulsa Oklahoma,field (F1),01/06/2009,4,decimal,36.131389,-95.937222,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,27.4,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,REI002,development time,mean duration of life stage,50.3,days,1.9,1.9,SEM,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,1,NA,NA,NA,NA,NA,NA,Palm Beach County Florida,field (F4),01/06/2008,4,decimal,26.71,-80.05,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,14.3,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,REI002,development time,mean duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,2,NA,NA,NA,NA,NA,NA,Palm Beach County Florida,field (F4),01/06/2008,4,decimal,26.71,-80.05,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,14.3,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,trait value set to zero because mortality was complete at this temperature,TRUE,01/01/2012
NA,REI002,development time,mean duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,3,NA,NA,NA,NA,NA,NA,Palm Beach County Florida,field (F4),01/06/2008,4,decimal,26.71,-80.05,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,14.3,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,trait value set to zero because mortality was complete at this temperature,TRUE,01/01/2012
NA,REI002,development time,mean duration of life stage,19.1,days,1.1,1.1,SEM,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,1,NA,NA,NA,NA,NA,NA,Palm Beach County Florida,field (F4),01/06/2008,4,decimal,26.71,-80.05,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,19.5,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,REI002,development time,mean duration of life stage,18.8,days,0.9,0.9,SEM,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,2,NA,NA,NA,NA,NA,NA,Palm Beach County Florida,field (F4),01/06/2008,4,decimal,26.71,-80.05,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,19.5,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,REI002,development time,mean duration of life stage,19.2,days,1,1,SEM,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,3,NA,NA,NA,NA,NA,NA,Palm Beach County Florida,field (F4),01/06/2008,4,decimal,26.71,-80.05,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,19.5,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,REI002,development time,mean duration of life stage,12,days,0.3,0.2,SEM,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,1,NA,NA,NA,NA,NA,NA,Palm Beach County Florida,field (F4),01/06/2008,4,decimal,26.71,-80.05,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,23.6,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,REI002,development time,mean duration of life stage,11.7,days,0.6,0.4,SEM,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,2,NA,NA,NA,NA,NA,NA,Palm Beach County Florida,field (F4),01/06/2008,4,decimal,26.71,-80.05,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,23.6,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,REI002,development time,mean duration of life stage,11.3,days,0.4,0.2,SEM,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,3,NA,NA,NA,NA,NA,NA,Palm Beach County Florida,field (F4),01/06/2008,4,decimal,26.71,-80.05,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,23.6,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,REI002,development time,mean duration of life stage,8.9,days,0.6,0.4,SEM,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,1,NA,NA,NA,NA,NA,NA,Palm Beach County Florida,field (F4),01/06/2008,4,decimal,26.71,-80.05,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,27.4,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,REI002,development time,mean duration of life stage,9.7,days,0.2,0.2,SEM,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,2,NA,NA,NA,NA,NA,NA,Palm Beach County Florida,field (F4),01/06/2008,4,decimal,26.71,-80.05,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,27.4,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,REI002,development time,mean duration of life stage,9.5,days,0.4,0.4,SEM,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,3,NA,NA,NA,NA,NA,NA,Palm Beach County Florida,field (F4),01/06/2008,4,decimal,26.71,-80.05,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,27.4,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,REI002,development time,mean duration of life stage,44.9,days,1.1,1.1,SEM,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,1,NA,NA,NA,NA,NA,NA,Palm Beach County Florida,field (F4),01/06/2008,4,decimal,26.71,-80.05,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,14.3,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,NA,survival,percentage surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Thursday Island Queensland Australia,colony,NA,0,decimal,-10.35,142.13,Aedes aegypti,Yellow fever mosquito,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tun-Lin et al. 2000. Effects of temperature and larval diet on development rates and survival of the dengue vector Aedes aegypti in north Queensland Australia. Med. Vet. Entomol. 14:31-37,10.1046/j.1365-2915.2000.00207.x,NA,NA,Paul Huxley,phuxly@gmail.com,trait value set to zero because mortality was complete at this temperature. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2000
NA,NA,survival,percentage surviving life stage,23.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Thursday Island Queensland Australia,colony,NA,0,decimal,-10.35,142.13,Aedes aegypti,Yellow fever mosquito,NA,NA,47,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tun-Lin et al. 2000. Effects of temperature and larval diet on development rates and survival of the dengue vector Aedes aegypti in north Queensland Australia. Med. Vet. Entomol. 14:31-37,10.1046/j.1365-2915.2000.00207.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals  survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2000
NA,NA,survival,percentage surviving life stage,90,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Thursday Island Queensland Australia,colony,NA,0,decimal,-10.35,142.13,Aedes aegypti,Yellow fever mosquito,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tun-Lin et al. 2000. Effects of temperature and larval diet on development rates and survival of the dengue vector Aedes aegypti in north Queensland Australia. Med. Vet. Entomol. 14:31-37,10.1046/j.1365-2915.2000.00207.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals did survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2000
NA,NA,survival,percentage surviving life stage,88,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Thursday Island Queensland Australia,colony,NA,0,decimal,-10.35,142.13,Aedes aegypti,Yellow fever mosquito,NA,NA,176,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tun-Lin et al. 2000. Effects of temperature and larval diet on development rates and survival of the dengue vector Aedes aegypti in north Queensland Australia. Med. Vet. Entomol. 14:31-37,10.1046/j.1365-2915.2000.00207.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals did survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2000
NA,NA,survival,percentage surviving life stage,93,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Thursday Island Queensland Australia,colony,NA,0,decimal,-10.35,142.13,Aedes aegypti,Yellow fever mosquito,NA,NA,186,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tun-Lin et al. 2000. Effects of temperature and larval diet on development rates and survival of the dengue vector Aedes aegypti in north Queensland Australia. Med. Vet. Entomol. 14:31-37,10.1046/j.1365-2915.2000.00207.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals did survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2000
NA,NA,survival,percentage surviving life stage,88,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Thursday Island Queensland Australia,colony,NA,0,decimal,-10.35,142.13,Aedes aegypti,Yellow fever mosquito,NA,NA,176,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tun-Lin et al. 2000. Effects of temperature and larval diet on development rates and survival of the dengue vector Aedes aegypti in north Queensland Australia. Med. Vet. Entomol. 14:31-37,10.1046/j.1365-2915.2000.00207.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals did survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2000
NA,NA,survival,percentage surviving life stage,67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Thursday Island Queensland Australia,colony,NA,0,decimal,-10.35,142.13,Aedes aegypti,Yellow fever mosquito,NA,NA,134,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tun-Lin et al. 2000. Effects of temperature and larval diet on development rates and survival of the dengue vector Aedes aegypti in north Queensland Australia. Med. Vet. Entomol. 14:31-37,10.1046/j.1365-2915.2000.00207.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals did survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2000
NA,NA,survival,percentage surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Thursday Island Queensland Australia,colony,NA,0,decimal,-10.35,142.13,Aedes aegypti,Yellow fever mosquito,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,40,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tun-Lin et al. 2000. Effects of temperature and larval diet on development rates and survival of the dengue vector Aedes aegypti in north Queensland Australia. Med. Vet. Entomol. 14:31-37,10.1046/j.1365-2915.2000.00207.x,NA,NA,Paul Huxley,phuxly@gmail.com,trait value set to zero because mortality was complete at this temperature. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2000
NA,WAT001,transmission rate,binomial transmission success of dengue II virus to rhesus monkeys by Ae. aegypti as a function of incubation period and temperature,0,binomial (1 = transmission occurred),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,3,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individual mosquitoes that refed on an individual monkey,TRUE,01/01/1987
NA,WAT001,transmission rate,binomial transmission success of dengue II virus to rhesus monkeys by Ae. aegypti as a function of incubation period and temperature,0,binomial (1 = transmission occurred),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,7,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individual mosquitoes that refed on an individual monkey,TRUE,01/01/1987
NA,WAT001,transmission rate,binomial transmission success of dengue II virus to rhesus monkeys by Ae. aegypti as a function of incubation period and temperature,0,binomial (1 = transmission occurred),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,12,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individual mosquitoes that refed on an individual monkey,TRUE,01/01/1987
NA,WAT001,transmission rate,binomial transmission success of dengue II virus to rhesus monkeys by Ae. aegypti as a function of incubation period and temperature,0,binomial (1 = transmission occurred),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,18,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individual mosquitoes that refed on an individual monkey,TRUE,01/01/1987
NA,WAT001,transmission rate,binomial transmission success of dengue II virus to rhesus monkeys by Ae. aegypti as a function of incubation period and temperature,0,binomial (1 = transmission occurred),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,25,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individual mosquitoes that refed on an individual monkey,TRUE,01/01/1987
NA,WAT001,transmission rate,binomial transmission success of dengue II virus to rhesus monkeys by Ae. aegypti as a function of incubation period and temperature,0,binomial (1 = transmission occurred),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,3,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,24,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individual mosquitoes that refed on an individual monkey,TRUE,01/01/1987
NA,WAT001,transmission rate,binomial transmission success of dengue II virus to rhesus monkeys by Ae. aegypti as a function of incubation period and temperature,0,binomial (1 = transmission occurred),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,7,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,24,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individual mosquitoes that refed on an individual monkey,TRUE,01/01/1987
NA,WAT001,transmission rate,binomial transmission success of dengue II virus to rhesus monkeys by Ae. aegypti as a function of incubation period and temperature,0,binomial (1 = transmission occurred),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,12,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,24,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individual mosquitoes that refed on an individual monkey,TRUE,01/01/1987
NA,WAT001,transmission rate,binomial transmission success of dengue II virus to rhesus monkeys by Ae. aegypti as a function of incubation period and temperature,0,binomial (1 = transmission occurred),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,18,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,24,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individual mosquitoes that refed on an individual monkey,TRUE,01/01/1987
NA,WAT001,transmission rate,binomial transmission success of dengue II virus to rhesus monkeys by Ae. aegypti as a function of incubation period and temperature,0,binomial (1 = transmission occurred),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,25,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,24,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individual mosquitoes that refed on an individual monkey,TRUE,01/01/1987
NA,WAT001,transmission rate,binomial transmission success of dengue II virus to rhesus monkeys by Ae. aegypti as a function of incubation period and temperature,0,binomial (1 = transmission occurred),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,3,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,26,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individual mosquitoes that refed on an individual monkey,TRUE,01/01/1987
NA,WAT001,transmission rate,binomial transmission success of dengue II virus to rhesus monkeys by Ae. aegypti as a function of incubation period and temperature,0,binomial (1 = transmission occurred),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,7,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,26,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individual mosquitoes that refed on an individual monkey,TRUE,01/01/1987
NA,WAT001,transmission rate,binomial transmission success of dengue II virus to rhesus monkeys by Ae. aegypti as a function of incubation period and temperature,0,binomial (1 = transmission occurred),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,12,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,26,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individual mosquitoes that refed on an individual monkey,TRUE,01/01/1987
NA,WAT001,transmission rate,binomial transmission success of dengue II virus to rhesus monkeys by Ae. aegypti as a function of incubation period and temperature,0,binomial (1 = transmission occurred),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,18,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,26,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individual mosquitoes that refed on an individual monkey,TRUE,01/01/1987
NA,WAT001,transmission rate,binomial transmission success of dengue II virus to rhesus monkeys by Ae. aegypti as a function of incubation period and temperature,0,binomial (1 = transmission occurred),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,25,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,26,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individual mosquitoes that refed on an individual monkey,TRUE,01/01/1987
NA,WAT001,transmission rate,binomial transmission success of dengue II virus to rhesus monkeys by Ae. aegypti as a function of incubation period and temperature,0,binomial (1 = transmission occurred),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,3,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individual mosquitoes that refed on an individual monkey,TRUE,01/01/1987
NA,WAT001,transmission rate,binomial transmission success of dengue II virus to rhesus monkeys by Ae. aegypti as a function of incubation period and temperature,0,binomial (1 = transmission occurred),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,7,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individual mosquitoes that refed on an individual monkey,TRUE,01/01/1987
NA,WAT001,transmission rate,binomial transmission success of dengue II virus to rhesus monkeys by Ae. aegypti as a function of incubation period and temperature,0,binomial (1 = transmission occurred),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,12,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individual mosquitoes that refed on an individual monkey,TRUE,01/01/1987
NA,WAT001,transmission rate,binomial transmission success of dengue II virus to rhesus monkeys by Ae. aegypti as a function of incubation period and temperature,0,binomial (1 = transmission occurred),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,18,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individual mosquitoes that refed on an individual monkey,TRUE,01/01/1987
NA,WAT001,transmission rate,binomial transmission success of dengue II virus to rhesus monkeys by Ae. aegypti as a function of incubation period and temperature,1,binomial (1 = transmission occurred),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,25,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individual mosquitoes that refed on an individual monkey,TRUE,01/01/1987
NA,WAT002,viral presence (head),presence of virus in head/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,3,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT002,viral presence (head),presence of virus in head/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,7,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT002,viral presence (head),presence of virus in head/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,12,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT002,viral presence (head),presence of virus in head/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,18,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT002,viral presence (head),presence of virus in head/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,25,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT002,viral presence (head),presence of virus in head/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,3,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,24,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT002,viral presence (head),presence of virus in head/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,7,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,24,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT002,viral presence (head),presence of virus in head/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,12,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,24,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT002,viral presence (head),presence of virus in head/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,18,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,24,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT002,viral presence (head),presence of virus in head/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,25,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,24,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT002,viral presence (head),presence of virus in head/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,3,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,26,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT002,viral presence (head),presence of virus in head/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,7,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,26,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT002,viral presence (head),presence of virus in head/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,12,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,26,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT002,viral presence (head),presence of virus in head/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,18,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,26,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT002,viral presence (head),presence of virus in head/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,25,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,26,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT002,viral presence (head),presence of virus in head/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,3,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT002,viral presence (head),presence of virus in head/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,7,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT002,viral presence (head),presence of virus in head/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,12,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT002,viral presence (head),presence of virus in head/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,18,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT002,viral presence (head),presence of virus in head/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,25,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT003,viral presence (salivary glands),binomial presence of virus in salivary glands as a function of incubation period and temperature,0,binomial (1 = virus positive),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,3,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT003,viral presence (salivary glands),binomial presence of virus in salivary glands as a function of incubation period and temperature,0,binomial (1 = virus positive),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,7,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT003,viral presence (salivary glands),binomial presence of virus in salivary glands as a function of incubation period and temperature,0,binomial (1 = virus positive),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,12,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT003,viral presence (salivary glands),binomial presence of virus in salivary glands as a function of incubation period and temperature,0,binomial (1 = virus positive),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,18,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT003,viral presence (salivary glands),binomial presence of virus in salivary glands as a function of incubation period and temperature,0,binomial (1 = virus positive),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,25,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT003,viral presence (salivary glands),binomial presence of virus in salivary glands as a function of incubation period and temperature,0,binomial (1 = virus positive),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,3,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,24,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT003,viral presence (salivary glands),binomial presence of virus in salivary glands as a function of incubation period and temperature,0,binomial (1 = virus positive),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,7,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,24,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT003,viral presence (salivary glands),binomial presence of virus in salivary glands as a function of incubation period and temperature,0,binomial (1 = virus positive),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,12,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,24,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT003,viral presence (salivary glands),binomial presence of virus in salivary glands as a function of incubation period and temperature,1,binomial (1 = virus positive),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,18,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,24,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT003,viral presence (salivary glands),binomial presence of virus in salivary glands as a function of incubation period and temperature,1,binomial (1 = virus positive),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,25,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,24,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT003,viral presence (salivary glands),binomial presence of virus in salivary glands as a function of incubation period and temperature,0,binomial (1 = virus positive),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,3,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,26,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT003,viral presence (salivary glands),binomial presence of virus in salivary glands as a function of incubation period and temperature,0,binomial (1 = virus positive),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,7,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,26,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT003,viral presence (salivary glands),binomial presence of virus in salivary glands as a function of incubation period and temperature,0,binomial (1 = virus positive),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,12,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,26,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT003,viral presence (salivary glands),binomial presence of virus in salivary glands as a function of incubation period and temperature,1,binomial (1 = virus positive),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,18,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,26,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT003,viral presence (salivary glands),binomial presence of virus in salivary glands as a function of incubation period and temperature,1,binomial (1 = virus positive),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,25,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,26,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT003,viral presence (salivary glands),binomial presence of virus in salivary glands as a function of incubation period and temperature,0,binomial (1 = virus positive),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,3,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT003,viral presence (salivary glands),binomial presence of virus in salivary glands as a function of incubation period and temperature,0,binomial (1 = virus positive),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,7,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT003,viral presence (salivary glands),binomial presence of virus in salivary glands as a function of incubation period and temperature,0,binomial (1 = virus positive),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,12,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT003,viral presence (salivary glands),binomial presence of virus in salivary glands as a function of incubation period and temperature,1,binomial (1 = virus positive),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,18,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT003,viral presence (salivary glands),binomial presence of virus in salivary glands as a function of incubation period and temperature,1,binomial (1 = virus positive),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,25,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT004,viral presence (throrax-abdomen),number of thorax-abdomens yielding virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,3,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT004,viral presence (throrax-abdomen),number of thorax-abdomens yielding virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,7,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT004,viral presence (throrax-abdomen),number of thorax-abdomens yielding virus/no. examined (interactor1number) as a function of incubation period and temperature,1,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,12,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT004,viral presence (throrax-abdomen),number of thorax-abdomens yielding virus/no. examined (interactor1number) as a function of incubation period and temperature,2,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,18,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT004,viral presence (throrax-abdomen),number of thorax-abdomens yielding virus/no. examined (interactor1number) as a function of incubation period and temperature,3,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,25,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT004,viral presence (throrax-abdomen),number of thorax-abdomens yielding virus/no. examined (interactor1number) as a function of incubation period and temperature,1,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,3,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,24,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT004,viral presence (throrax-abdomen),number of thorax-abdomens yielding virus/no. examined (interactor1number) as a function of incubation period and temperature,3,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,7,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,24,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT004,viral presence (throrax-abdomen),number of thorax-abdomens yielding virus/no. examined (interactor1number) as a function of incubation period and temperature,1,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,12,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,24,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT004,viral presence (throrax-abdomen),number of thorax-abdomens yielding virus/no. examined (interactor1number) as a function of incubation period and temperature,1,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,18,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,24,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT004,viral presence (throrax-abdomen),number of thorax-abdomens yielding virus/no. examined (interactor1number) as a function of incubation period and temperature,3,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,25,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,24,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT004,viral presence (throrax-abdomen),number of thorax-abdomens yielding virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,3,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,26,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT004,viral presence (throrax-abdomen),number of thorax-abdomens yielding virus/no. examined (interactor1number) as a function of incubation period and temperature,1,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,7,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,26,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT004,viral presence (throrax-abdomen),number of thorax-abdomens yielding virus/no. examined (interactor1number) as a function of incubation period and temperature,3,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,12,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,26,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT004,viral presence (throrax-abdomen),number of thorax-abdomens yielding virus/no. examined (interactor1number) as a function of incubation period and temperature,2,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,18,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,26,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT004,viral presence (throrax-abdomen),number of thorax-abdomens yielding virus/no. examined (interactor1number) as a function of incubation period and temperature,4,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,25,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,26,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT004,viral presence (throrax-abdomen),number of thorax-abdomens yielding virus/no. examined (interactor1number) as a function of incubation period and temperature,4,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,3,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT004,viral presence (throrax-abdomen),number of thorax-abdomens yielding virus/no. examined (interactor1number) as a function of incubation period and temperature,2,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,7,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT004,viral presence (throrax-abdomen),number of thorax-abdomens yielding virus/no. examined (interactor1number) as a function of incubation period and temperature,2,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,12,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT004,viral presence (throrax-abdomen),number of thorax-abdomens yielding virus/no. examined (interactor1number) as a function of incubation period and temperature,2,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,18,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT004,viral presence (throrax-abdomen),number of thorax-abdomens yielding virus/no. examined (interactor1number) as a function of incubation period and temperature,4,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,25,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT005,transmission rate (exp 2),binomial transmission success of dengue II virus to rhesus monkeys by Ae. aegypti as a function of incubation period and temperature,0,binomial (1 = transmission occurred),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,3,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,26,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individual mosquitoes that refed on an individual monkey. trait values are from a second experiment where mosquitoes fed on a monkey infected with a higher dose of DEN-2 (10^3.3 PFU per 1.0 of plasma) than in experiment 1,TRUE,01/01/1987
NA,WAT005,transmission rate (exp 2),binomial transmission success of dengue II virus to rhesus monkeys by Ae. aegypti as a function of incubation period and temperature,0,binomial (1 = transmission occurred),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,7,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,26,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individual mosquitoes that refed on an individual monkey,TRUE,01/01/1987
NA,WAT005,transmission rate (exp 2),binomial transmission success of dengue II virus to rhesus monkeys by Ae. aegypti as a function of incubation period and temperature,0,binomial (1 = transmission occurred),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,12,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,26,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individual mosquitoes that refed on an individual monkey,TRUE,01/01/1987
NA,WAT005,transmission rate (exp 2),binomial transmission success of dengue II virus to rhesus monkeys by Ae. aegypti as a function of incubation period and temperature,0,binomial (1 = transmission occurred),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,18,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,26,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individual mosquitoes that refed on an individual monkey,TRUE,01/01/1987
NA,WAT005,transmission rate (exp 2),binomial transmission success of dengue II virus to rhesus monkeys by Ae. aegypti as a function of incubation period and temperature,0,binomial (1 = transmission occurred),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,25,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,26,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individual mosquitoes that refed on an individual monkey,TRUE,01/01/1987
NA,WAT005,transmission rate (exp 2),binomial transmission success of dengue II virus to rhesus monkeys by Ae. aegypti as a function of incubation period and temperature,0,binomial (1 = transmission occurred),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,3,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individual mosquitoes that refed on an individual monkey,TRUE,01/01/1987
NA,WAT005,transmission rate (exp 2),binomial transmission success of dengue II virus to rhesus monkeys by Ae. aegypti as a function of incubation period and temperature,0,binomial (1 = transmission occurred),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,7,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individual mosquitoes that refed on an individual monkey,TRUE,01/01/1987
NA,WAT005,transmission rate (exp 2),binomial transmission success of dengue II virus to rhesus monkeys by Ae. aegypti as a function of incubation period and temperature,1,binomial (1 = transmission occurred),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,12,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individual mosquitoes that refed on an individual monkey,TRUE,01/01/1987
NA,WAT005,transmission rate (exp 2),binomial transmission success of dengue II virus to rhesus monkeys by Ae. aegypti as a function of incubation period and temperature,1,binomial (1 = transmission occurred),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,18,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individual mosquitoes that refed on an individual monkey,TRUE,01/01/1987
NA,WAT005,transmission rate (exp 2),binomial transmission success of dengue II virus to rhesus monkeys by Ae. aegypti as a function of incubation period and temperature,1,binomial (1 = transmission occurred),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,25,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individual mosquitoes that refed on an individual monkey,TRUE,01/01/1987
NA,WAT005,transmission rate (exp 2),binomial transmission success of dengue II virus to rhesus monkeys by Ae. aegypti as a function of incubation period and temperature,0,binomial (1 = transmission occurred),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,3,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individual mosquitoes that refed on an individual monkey,TRUE,01/01/1987
NA,WAT005,transmission rate (exp 2),binomial transmission success of dengue II virus to rhesus monkeys by Ae. aegypti as a function of incubation period and temperature,1,binomial (1 = transmission occurred),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,7,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individual mosquitoes that refed on an individual monkey,TRUE,01/01/1987
NA,WAT005,transmission rate (exp 2),binomial transmission success of dengue II virus to rhesus monkeys by Ae. aegypti as a function of incubation period and temperature,1,binomial (1 = transmission occurred),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,12,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individual mosquitoes that refed on an individual monkey,TRUE,01/01/1987
NA,WAT005,transmission rate (exp 2),binomial transmission success of dengue II virus to rhesus monkeys by Ae. aegypti as a function of incubation period and temperature,1,binomial (1 = transmission occurred),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,18,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individual mosquitoes that refed on an individual monkey,TRUE,01/01/1987
NA,WAT005,transmission rate (exp 2),binomial transmission success of dengue II virus to rhesus monkeys by Ae. aegypti as a function of incubation period and temperature,0,binomial (1 = transmission occurred),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,3,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individual mosquitoes that refed on an individual monkey,TRUE,01/01/1987
NA,WAT005,transmission rate (exp 2),binomial transmission success of dengue II virus to rhesus monkeys by Ae. aegypti as a function of incubation period and temperature,1,binomial (1 = transmission occurred),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,7,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individual mosquitoes that refed on an individual monkey,TRUE,01/01/1987
NA,WAT005,transmission rate (exp 2),binomial transmission success of dengue II virus to rhesus monkeys by Ae. aegypti as a function of incubation period and temperature,1,binomial (1 = transmission occurred),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,12,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individual mosquitoes that refed on an individual monkey,TRUE,01/01/1987
NA,WAT005,transmission rate (exp 2),binomial transmission success of dengue II virus to rhesus monkeys by Ae. aegypti as a function of incubation period and temperature,1,binomial (1 = transmission occurred),NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,18,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individual mosquitoes that refed on an individual monkey,TRUE,01/01/1987
NA,WAT006,viral presence (head) (exp 2),presence of virus in head/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,3,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,26,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are from a second experiment where mosquitoes fed on a monkey infected with a higher dose of DEN-2 (10^3.3 PFU per 1.0 of plasma) than in experiment 1,TRUE,01/01/1987
NA,WAT006,viral presence (head) (exp 2),presence of virus in head/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,7,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,26,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are from a second experiment where mosquitoes fed on a monkey infected with a higher dose of DEN-2 (10^3.3 PFU per 1.0 of plasma) than in experiment 1,TRUE,01/01/1987
NA,WAT006,viral presence (head) (exp 2),presence of virus in head/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,12,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,26,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are from a second experiment where mosquitoes fed on a monkey infected with a higher dose of DEN-2 (10^3.3 PFU per 1.0 of plasma) than in experiment 1,TRUE,01/01/1987
NA,WAT006,viral presence (head) (exp 2),presence of virus in head/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,18,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,26,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are from a second experiment where mosquitoes fed on a monkey infected with a higher dose of DEN-2 (10^3.3 PFU per 1.0 of plasma) than in experiment 1,TRUE,01/01/1987
NA,WAT006,viral presence (head) (exp 2),presence of virus in head/no. examined (interactor1number) as a function of incubation period and temperature,2,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,25,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,26,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are from a second experiment where mosquitoes fed on a monkey infected with a higher dose of DEN-2 (10^3.3 PFU per 1.0 of plasma) than in experiment 1,TRUE,01/01/1987
NA,WAT006,viral presence (head) (exp 2),presence of virus in head/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,3,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are from a second experiment where mosquitoes fed on a monkey infected with a higher dose of DEN-2 (10^3.3 PFU per 1.0 of plasma) than in experiment 1,TRUE,01/01/1987
NA,WAT006,viral presence (head) (exp 2),presence of virus in head/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,7,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are from a second experiment where mosquitoes fed on a monkey infected with a higher dose of DEN-2 (10^3.3 PFU per 1.0 of plasma) than in experiment 1,TRUE,01/01/1987
NA,WAT006,viral presence (head) (exp 2),presence of virus in head/no. examined (interactor1number) as a function of incubation period and temperature,3,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,12,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are from a second experiment where mosquitoes fed on a monkey infected with a higher dose of DEN-2 (10^3.3 PFU per 1.0 of plasma) than in experiment 1,TRUE,01/01/1987
NA,WAT006,viral presence (head) (exp 2),presence of virus in head/no. examined (interactor1number) as a function of incubation period and temperature,3,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,18,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are from a second experiment where mosquitoes fed on a monkey infected with a higher dose of DEN-2 (10^3.3 PFU per 1.0 of plasma) than in experiment 1,TRUE,01/01/1987
NA,WAT006,viral presence (head) (exp 2),presence of virus in head/no. examined (interactor1number) as a function of incubation period and temperature,4,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,25,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are from a second experiment where mosquitoes fed on a monkey infected with a higher dose of DEN-2 (10^3.3 PFU per 1.0 of plasma) than in experiment 1,TRUE,01/01/1987
NA,WAT006,viral presence (head) (exp 2),presence of virus in head/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,3,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are from a second experiment where mosquitoes fed on a monkey infected with a higher dose of DEN-2 (10^3.3 PFU per 1.0 of plasma) than in experiment 1,TRUE,01/01/1987
NA,WAT006,viral presence (head) (exp 2),presence of virus in head/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,7,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are from a second experiment where mosquitoes fed on a monkey infected with a higher dose of DEN-2 (10^3.3 PFU per 1.0 of plasma) than in experiment 1,TRUE,01/01/1987
NA,WAT006,viral presence (head) (exp 2),presence of virus in head/no. examined (interactor1number) as a function of incubation period and temperature,3,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,12,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are from a second experiment where mosquitoes fed on a monkey infected with a higher dose of DEN-2 (10^3.3 PFU per 1.0 of plasma) than in experiment 1,TRUE,01/01/1987
NA,WAT006,viral presence (head) (exp 2),presence of virus in head/no. examined (interactor1number) as a function of incubation period and temperature,3,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,18,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are from a second experiment where mosquitoes fed on a monkey infected with a higher dose of DEN-2 (10^3.3 PFU per 1.0 of plasma) than in experiment 1,TRUE,01/01/1987
NA,WAT006,viral presence (head) (exp 2),presence of virus in head/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,3,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are from a second experiment where mosquitoes fed on a monkey infected with a higher dose of DEN-2 (10^3.3 PFU per 1.0 of plasma) than in experiment 1,TRUE,01/01/1987
NA,WAT006,viral presence (head) (exp 2),presence of virus in head/no. examined (interactor1number) as a function of incubation period and temperature,1,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,7,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are from a second experiment where mosquitoes fed on a monkey infected with a higher dose of DEN-2 (10^3.3 PFU per 1.0 of plasma) than in experiment 1,TRUE,01/01/1987
NA,WAT006,viral presence (head) (exp 2),presence of virus in head/no. examined (interactor1number) as a function of incubation period and temperature,3,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,12,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are from a second experiment where mosquitoes fed on a monkey infected with a higher dose of DEN-2 (10^3.3 PFU per 1.0 of plasma) than in experiment 1,TRUE,01/01/1987
NA,WAT006,viral presence (head) (exp 2),presence of virus in head/no. examined (interactor1number) as a function of incubation period and temperature,5,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,18,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are from a second experiment where mosquitoes fed on a monkey infected with a higher dose of DEN-2 (10^3.3 PFU per 1.0 of plasma) than in experiment 1,TRUE,01/01/1987
NA,WAT007,viral presence (salivary glands) (exp 2),presence of virus in salivary glands/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive salivary glands,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,7,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,26,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are from a second experiment where mosquitoes fed on a monkey infected with a higher dose of DEN-2 (10^3.3 PFU per 1.0 of plasma) than in experiment 1,TRUE,01/01/1987
NA,WAT007,viral presence (salivary glands) (exp 2),presence of virus in salivary glands/no. examined (interactor1number) as a function of incubation period and temperature,1,number of positive salivary glands,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,12,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,26,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are from a second experiment where mosquitoes fed on a monkey infected with a higher dose of DEN-2 (10^3.3 PFU per 1.0 of plasma) than in experiment 1,TRUE,01/01/1987
NA,WAT007,viral presence (salivary glands) (exp 2),presence of virus in salivary glands/no. examined (interactor1number) as a function of incubation period and temperature,1,number of positive salivary glands,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,18,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,26,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are from a second experiment where mosquitoes fed on a monkey infected with a higher dose of DEN-2 (10^3.3 PFU per 1.0 of plasma) than in experiment 1,TRUE,01/01/1987
NA,WAT007,viral presence (salivary glands) (exp 2),presence of virus in salivary glands/no. examined (interactor1number) as a function of incubation period and temperature,4,number of positive salivary glands,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,25,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,26,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are from a second experiment where mosquitoes fed on a monkey infected with a higher dose of DEN-2 (10^3.3 PFU per 1.0 of plasma) than in experiment 1,TRUE,01/01/1987
NA,WAT007,viral presence (salivary glands) (exp 2),presence of virus in salivary glands/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive salivary glands,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,7,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are from a second experiment where mosquitoes fed on a monkey infected with a higher dose of DEN-2 (10^3.3 PFU per 1.0 of plasma) than in experiment 1,TRUE,01/01/1987
NA,WAT007,viral presence (salivary glands) (exp 2),presence of virus in salivary glands/no. examined (interactor1number) as a function of incubation period and temperature,5,number of positive salivary glands,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,12,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are from a second experiment where mosquitoes fed on a monkey infected with a higher dose of DEN-2 (10^3.3 PFU per 1.0 of plasma) than in experiment 1,TRUE,01/01/1987
NA,WAT007,viral presence (salivary glands) (exp 2),presence of virus in salivary glands/no. examined (interactor1number) as a function of incubation period and temperature,5,number of positive salivary glands,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,18,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are from a second experiment where mosquitoes fed on a monkey infected with a higher dose of DEN-2 (10^3.3 PFU per 1.0 of plasma) than in experiment 1,TRUE,01/01/1987
NA,WAT007,viral presence (salivary glands) (exp 2),presence of virus in salivary glands/no. examined (interactor1number) as a function of incubation period and temperature,4,number of positive salivary glands,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,25,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are from a second experiment where mosquitoes fed on a monkey infected with a higher dose of DEN-2 (10^3.3 PFU per 1.0 of plasma) than in experiment 1,TRUE,01/01/1987
NA,WAT007,viral presence (salivary glands) (exp 2),presence of virus in salivary glands/no. examined (interactor1number) as a function of incubation period and temperature,1,number of positive salivary glands,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,7,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are from a second experiment where mosquitoes fed on a monkey infected with a higher dose of DEN-2 (10^3.3 PFU per 1.0 of plasma) than in experiment 1,TRUE,01/01/1987
NA,WAT007,viral presence (salivary glands) (exp 2),presence of virus in salivary glands/no. examined (interactor1number) as a function of incubation period and temperature,4,number of positive salivary glands,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,12,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are from a second experiment where mosquitoes fed on a monkey infected with a higher dose of DEN-2 (10^3.3 PFU per 1.0 of plasma) than in experiment 1,TRUE,01/01/1987
NA,WAT007,viral presence (salivary glands) (exp 2),presence of virus in salivary glands/no. examined (interactor1number) as a function of incubation period and temperature,4,number of positive salivary glands,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,18,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are from a second experiment where mosquitoes fed on a monkey infected with a higher dose of DEN-2 (10^3.3 PFU per 1.0 of plasma) than in experiment 1,TRUE,01/01/1987
NA,WAT007,viral presence (salivary glands) (exp 2),presence of virus in salivary glands/no. examined (interactor1number) as a function of incubation period and temperature,3,number of positive salivary glands,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,7,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are from a second experiment where mosquitoes fed on a monkey infected with a higher dose of DEN-2 (10^3.3 PFU per 1.0 of plasma) than in experiment 1,TRUE,01/01/1987
NA,WAT007,viral presence (salivary glands) (exp 2),presence of virus in salivary glands/no. examined (interactor1number) as a function of incubation period and temperature,5,number of positive salivary glands,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,12,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are from a second experiment where mosquitoes fed on a monkey infected with a higher dose of DEN-2 (10^3.3 PFU per 1.0 of plasma) than in experiment 1,TRUE,01/01/1987
NA,WAT007,viral presence (salivary glands) (exp 2),presence of virus in salivary glands/no. examined (interactor1number) as a function of incubation period and temperature,5,number of positive salivary glands,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,18,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are from a second experiment where mosquitoes fed on a monkey infected with a higher dose of DEN-2 (10^3.3 PFU per 1.0 of plasma) than in experiment 1,TRUE,01/01/1987
NA,WAT008,viral presence (throrax-abdomen) (exp 2),number of thorax-abdomens yielding virus/no. examined (interactor1number) as a function of incubation period and temperature,3,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,3,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,26,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are from a second experiment where mosquitoes fed on a monkey infected with a higher dose of DEN-2 (10^3.3 PFU per 1.0 of plasma) than in experiment 1,TRUE,01/01/1987
NA,WAT008,viral presence (throrax-abdomen) (exp 2),number of thorax-abdomens yielding virus/no. examined (interactor1number) as a function of incubation period and temperature,4,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,7,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,26,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are from a second experiment where mosquitoes fed on a monkey infected with a higher dose of DEN-2 (10^3.3 PFU per 1.0 of plasma) than in experiment 1,TRUE,01/01/1987
NA,WAT008,viral presence (throrax-abdomen) (exp 2),number of thorax-abdomens yielding virus/no. examined (interactor1number) as a function of incubation period and temperature,4,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,12,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,26,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are from a second experiment where mosquitoes fed on a monkey infected with a higher dose of DEN-2 (10^3.3 PFU per 1.0 of plasma) than in experiment 1,TRUE,01/01/1987
NA,WAT008,viral presence (throrax-abdomen) (exp 2),number of thorax-abdomens yielding virus/no. examined (interactor1number) as a function of incubation period and temperature,3,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,18,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,26,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are from a second experiment where mosquitoes fed on a monkey infected with a higher dose of DEN-2 (10^3.3 PFU per 1.0 of plasma) than in experiment 1,TRUE,01/01/1987
NA,WAT008,viral presence (throrax-abdomen) (exp 2),number of thorax-abdomens yielding virus/no. examined (interactor1number) as a function of incubation period and temperature,4,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,25,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,26,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are from a second experiment where mosquitoes fed on a monkey infected with a higher dose of DEN-2 (10^3.3 PFU per 1.0 of plasma) than in experiment 1,TRUE,01/01/1987
NA,WAT008,viral presence (throrax-abdomen) (exp 2),number of thorax-abdomens yielding virus/no. examined (interactor1number) as a function of incubation period and temperature,3,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,3,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are from a second experiment where mosquitoes fed on a monkey infected with a higher dose of DEN-2 (10^3.3 PFU per 1.0 of plasma) than in experiment 1,TRUE,01/01/1987
NA,WAT008,viral presence (throrax-abdomen) (exp 2),number of thorax-abdomens yielding virus/no. examined (interactor1number) as a function of incubation period and temperature,3,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,7,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are from a second experiment where mosquitoes fed on a monkey infected with a higher dose of DEN-2 (10^3.3 PFU per 1.0 of plasma) than in experiment 1,TRUE,01/01/1987
NA,WAT008,viral presence (throrax-abdomen) (exp 2),number of thorax-abdomens yielding virus/no. examined (interactor1number) as a function of incubation period and temperature,5,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,12,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are from a second experiment where mosquitoes fed on a monkey infected with a higher dose of DEN-2 (10^3.3 PFU per 1.0 of plasma) than in experiment 1,TRUE,01/01/1987
NA,WAT008,viral presence (throrax-abdomen) (exp 2),number of thorax-abdomens yielding virus/no. examined (interactor1number) as a function of incubation period and temperature,5,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,18,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are from a second experiment where mosquitoes fed on a monkey infected with a higher dose of DEN-2 (10^3.3 PFU per 1.0 of plasma) than in experiment 1,TRUE,01/01/1987
NA,WAT008,viral presence (throrax-abdomen) (exp 2),number of thorax-abdomens yielding virus/no. examined (interactor1number) as a function of incubation period and temperature,4,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,25,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are from a second experiment where mosquitoes fed on a monkey infected with a higher dose of DEN-2 (10^3.3 PFU per 1.0 of plasma) than in experiment 1,TRUE,01/01/1987
NA,WAT008,viral presence (throrax-abdomen) (exp 2),number of thorax-abdomens yielding virus/no. examined (interactor1number) as a function of incubation period and temperature,4,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,3,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are from a second experiment where mosquitoes fed on a monkey infected with a higher dose of DEN-2 (10^3.3 PFU per 1.0 of plasma) than in experiment 1,TRUE,01/01/1987
NA,WAT008,viral presence (throrax-abdomen) (exp 2),number of thorax-abdomens yielding virus/no. examined (interactor1number) as a function of incubation period and temperature,5,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,7,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are from a second experiment where mosquitoes fed on a monkey infected with a higher dose of DEN-2 (10^3.3 PFU per 1.0 of plasma) than in experiment 1,TRUE,01/01/1987
NA,WAT008,viral presence (throrax-abdomen) (exp 2),number of thorax-abdomens yielding virus/no. examined (interactor1number) as a function of incubation period and temperature,5,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,12,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are from a second experiment where mosquitoes fed on a monkey infected with a higher dose of DEN-2 (10^3.3 PFU per 1.0 of plasma) than in experiment 1,TRUE,01/01/1987
NA,WAT008,viral presence (throrax-abdomen) (exp 2),number of thorax-abdomens yielding virus/no. examined (interactor1number) as a function of incubation period and temperature,4,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,18,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are from a second experiment where mosquitoes fed on a monkey infected with a higher dose of DEN-2 (10^3.3 PFU per 1.0 of plasma) than in experiment 1,TRUE,01/01/1987
NA,WAT008,viral presence (throrax-abdomen) (exp 2),number of thorax-abdomens yielding virus/no. examined (interactor1number) as a function of incubation period and temperature,4,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,7,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are from a second experiment where mosquitoes fed on a monkey infected with a higher dose of DEN-2 (10^3.3 PFU per 1.0 of plasma) than in experiment 1,TRUE,01/01/1987
NA,WAT008,viral presence (throrax-abdomen) (exp 2),number of thorax-abdomens yielding virus/no. examined (interactor1number) as a function of incubation period and temperature,5,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,12,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are from a second experiment where mosquitoes fed on a monkey infected with a higher dose of DEN-2 (10^3.3 PFU per 1.0 of plasma) than in experiment 1,TRUE,01/01/1987
NA,WAT008,viral presence (throrax-abdomen) (exp 2),number of thorax-abdomens yielding virus/no. examined (interactor1number) as a function of incubation period and temperature,5,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,18,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,trait values are from a second experiment where mosquitoes fed on a monkey infected with a higher dose of DEN-2 (10^3.3 PFU per 1.0 of plasma) than in experiment 1,TRUE,01/01/1987
NA,WAT009,viral replication rate,replication rate of DENV-2 as a function of temperature following viremic bloodmeal,1.2,log10 PFU/ml,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,3,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,26,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT009,viral replication rate during incubation period,replication rate of DENV-2 as a function of temperature following viremic bloodmeal,3.11,log10 PFU/ml,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,7,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,26,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT009,viral replication rate during incubation period,replication rate of DENV-2 as a function of temperature following viremic bloodmeal,3.52,log10 PFU/ml,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,12,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,26,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT009,viral replication rate during incubation period,replication rate of DENV-2 as a function of temperature following viremic bloodmeal,4.51,log10 PFU/ml,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,18,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,26,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT009,viral replication rate during incubation period,replication rate of DENV-2 as a function of temperature following viremic bloodmeal,4.72,log10 PFU/ml,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,25,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,26,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT009,viral replication rate during incubation period,replication rate of DENV-2 as a function of temperature following viremic bloodmeal,2.59,log10 PFU/ml,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,3,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT009,viral replication rate during incubation period,replication rate of DENV-2 as a function of temperature following viremic bloodmeal,3.81,log10 PFU/ml,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,7,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT009,viral replication rate during incubation period,replication rate of DENV-2 as a function of temperature following viremic bloodmeal,4.1,log10 PFU/ml,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,12,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT009,viral replication rate during incubation period,replication rate of DENV-2 as a function of temperature following viremic bloodmeal,4.91,log10 PFU/ml,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,18,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT009,viral replication rate during incubation period,replication rate of DENV-2 as a function of temperature following viremic bloodmeal,4.83,log10 PFU/ml,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,25,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT009,viral replication rate during incubation period,replication rate of DENV-2 as a function of temperature following viremic bloodmeal,3.83,log10 PFU/ml,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,3,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT009,viral replication rate during incubation period,replication rate of DENV-2 as a function of temperature following viremic bloodmeal,3.63,log10 PFU/ml,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,7,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT009,viral replication rate during incubation period,replication rate of DENV-2 as a function of temperature following viremic bloodmeal,4.2,log10 PFU/ml,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,12,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT009,viral replication rate during incubation period,replication rate of DENV-2 as a function of temperature following viremic bloodmeal,4.6,log10 PFU/ml,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,18,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT009,viral replication rate during incubation period,replication rate of DENV-2 as a function of temperature following viremic bloodmeal,3.5,log10 PFU/ml,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,7,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT009,viral replication rate during incubation period,replication rate of DENV-2 as a function of temperature following viremic bloodmeal,4.42,log10 PFU/ml,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,12,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,WAT009,viral replication rate during incubation period,replication rate of DENV-2 as a function of temperature following viremic bloodmeal,4.72,log10 PFU/ml,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,18,days,NA,NA,NA,NA,NA,Bangkok Thailand,field,NA,0,decimal,13.7525,100.494167,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Watts et al. 1987. Effect of temperature on the vector efficiency of Aedes aegyptii for dengue 2 virus. Med. Hyg. 36:1,10.4269/ajtmh.1987.36.143,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1987
NA,REI002,development time,mean duration of life stage,43.2,days,1.7,1.7,SEM,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,2,NA,NA,NA,NA,NA,NA,Palm Beach County Florida,field (F4),01/06/2008,4,decimal,26.71,-80.05,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,14.3,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,REI002,development time,mean duration of life stage,37,days,0,0,SEM,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,3,NA,NA,NA,NA,NA,NA,Palm Beach County Florida,field (F4),01/06/2008,4,decimal,26.71,-80.05,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,14.3,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,REI002,development time,mean duration of life stage,19.1,days,0.7,0.7,SEM,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,1,NA,NA,NA,NA,NA,NA,Palm Beach County Florida,field (F4),01/06/2008,4,decimal,26.71,-80.05,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,19.5,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,REI002,development time,mean duration of life stage,16.6,days,0.2,0.1,SEM,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,2,NA,NA,NA,NA,NA,NA,Palm Beach County Florida,field (F4),01/06/2008,4,decimal,26.71,-80.05,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,19.5,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,REI002,development time,mean duration of life stage,16.1,days,0.3,0.3,SEM,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,3,NA,NA,NA,NA,NA,NA,Palm Beach County Florida,field (F4),01/06/2008,4,decimal,26.71,-80.05,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,19.5,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,REI002,development time,mean duration of life stage,11.5,days,0.2,0.1,SEM,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,1,NA,NA,NA,NA,NA,NA,Palm Beach County Florida,field (F4),01/06/2008,4,decimal,26.71,-80.05,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,23.6,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,WES003,mortality,percentage not surviving life stage,9.15,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Palm Beach County Florida,field,01/06/2007,4,decimal,26.7097,-80.0641,Aedes albopictus,NA,NA,NA,1321,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,18,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,text,Westbrook et al. 2010. Larval environmental temperature and the susceptibility of Aedes albopictus Skuse (Diptera: Culicidae) to chikungunya virus. Vector-Borne and Zoonotic Diseases 10:3,10.1089/vbz.2009.0035,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=1454),TRUE,01/01/2010
NA,WES003,mortality,percentage not surviving life stage,7.34,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Palm Beach County Florida,field,01/06/2007,4,decimal,26.7097,-80.0641,Aedes albopictus,NA,NA,NA,1408,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,text,Westbrook et al. 2010. Larval environmental temperature and the susceptibility of Aedes albopictus Skuse (Diptera: Culicidae) to chikungunya virus. Vector-Borne and Zoonotic Diseases 10:3,10.1089/vbz.2009.0035,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=1520),TRUE,01/01/2010
NA,WES003,mortality,percentage not surviving life stage,16.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Palm Beach County Florida,field,01/06/2007,4,decimal,26.7097,-80.0641,Aedes albopictus,NA,NA,NA,1224,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,text,Westbrook et al. 2010. Larval environmental temperature and the susceptibility of Aedes albopictus Skuse (Diptera: Culicidae) to chikungunya virus. Vector-Borne and Zoonotic Diseases 10:3,10.1089/vbz.2009.0035,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=1473),TRUE,01/01/2010
NA,MSS0065,survival,percent surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing water type,binomial (1=tap water 0=rainwater),1,NA,NA,NA,NA,NA,NA,Adelaide Australia,field (houses in urban area),01/02/2009,4,decimal,-34.5539,138.36,Aedes notoscriptus,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,text,Williams and Rau 2011. Growth and development performance of the ubiquitous urban mosquito Aedes notoscriptus (Diptera: Culicidae) in Australia varies with water type and temperature. Australian Journal of Entomology 50:2,10.1111/j.1440-6055.2010.00806.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2011
NA,MSS0065,survival,percent surviving life stage,73,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing water type,binomial (1=tap water 0=rainwater),1,NA,NA,NA,NA,NA,NA,Adelaide Australia,field (houses in urban area),01/02/2009,4,decimal,-34.5539,138.36,Aedes notoscriptus,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,text,Williams and Rau 2011. Growth and development performance of the ubiquitous urban mosquito Aedes notoscriptus (Diptera: Culicidae) in Australia varies with water type and temperature. Australian Journal of Entomology 50:2,10.1111/j.1440-6055.2010.00806.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2011
NA,MSS0065,survival,percent surviving life stage,67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing water type,binomial (1=tap water 0=rainwater),1,NA,NA,NA,NA,NA,NA,Adelaide Australia,field (houses in urban area),01/02/2009,4,decimal,-34.5539,138.36,Aedes notoscriptus,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,text,Williams and Rau 2011. Growth and development performance of the ubiquitous urban mosquito Aedes notoscriptus (Diptera: Culicidae) in Australia varies with water type and temperature. Australian Journal of Entomology 50:2,10.1111/j.1440-6055.2010.00806.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2011
NA,MSS0065,survival,percent surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing water type,binomial (1=tap water 0=rainwater),1,NA,NA,NA,NA,NA,NA,Adelaide Australia,field (houses in urban area),01/02/2009,4,decimal,-34.5539,138.36,Aedes notoscriptus,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,text,Williams and Rau 2011. Growth and development performance of the ubiquitous urban mosquito Aedes notoscriptus (Diptera: Culicidae) in Australia varies with water type and temperature. Australian Journal of Entomology 50:2,10.1111/j.1440-6055.2010.00806.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2011
NA,MSS0065,survival,percent surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing water type,binomial (1=tap water 0=rainwater),1,NA,NA,NA,NA,NA,NA,Adelaide Australia,field (houses in urban area),01/02/2009,4,decimal,-34.5539,138.36,Aedes notoscriptus,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,text,Williams and Rau 2011. Growth and development performance of the ubiquitous urban mosquito Aedes notoscriptus (Diptera: Culicidae) in Australia varies with water type and temperature. Australian Journal of Entomology 50:2,10.1111/j.1440-6055.2010.00806.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,trait value set to zero because species failed to complete development at this temperature,TRUE,01/01/2011
NA,MSS0065,survival,percent surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing water type,binomial (1=tap water 0=rainwater),0,NA,NA,NA,NA,NA,NA,Adelaide Australia,field (houses in urban area),01/02/2009,4,decimal,-34.5539,138.36,Aedes notoscriptus,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,text,Williams and Rau 2011. Growth and development performance of the ubiquitous urban mosquito Aedes notoscriptus (Diptera: Culicidae) in Australia varies with water type and temperature. Australian Journal of Entomology 50:2,10.1111/j.1440-6055.2010.00806.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2011
NA,MSS0065,survival,percent surviving life stage,87.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing water type,binomial (1=tap water 0=rainwater),0,NA,NA,NA,NA,NA,NA,Adelaide Australia,field (houses in urban area),01/02/2009,4,decimal,-34.5539,138.36,Aedes notoscriptus,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,text,Williams and Rau 2011. Growth and development performance of the ubiquitous urban mosquito Aedes notoscriptus (Diptera: Culicidae) in Australia varies with water type and temperature. Australian Journal of Entomology 50:2,10.1111/j.1440-6055.2010.00806.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2011
NA,MSS0065,survival,percent surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing water type,binomial (1=tap water 0=rainwater),0,NA,NA,NA,NA,NA,NA,Adelaide Australia,field (houses in urban area),01/02/2009,4,decimal,-34.5539,138.36,Aedes notoscriptus,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,text,Williams and Rau 2011. Growth and development performance of the ubiquitous urban mosquito Aedes notoscriptus (Diptera: Culicidae) in Australia varies with water type and temperature. Australian Journal of Entomology 50:2,10.1111/j.1440-6055.2010.00806.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2011
NA,MSS0065,survival,percent surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing water type,binomial (1=tap water 0=rainwater),0,NA,NA,NA,NA,NA,NA,Adelaide Australia,field (houses in urban area),01/02/2009,4,decimal,-34.5539,138.36,Aedes notoscriptus,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,text,Williams and Rau 2011. Growth and development performance of the ubiquitous urban mosquito Aedes notoscriptus (Diptera: Culicidae) in Australia varies with water type and temperature. Australian Journal of Entomology 50:2,10.1111/j.1440-6055.2010.00806.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2011
NA,MSS0065,survival,percent surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing water type,binomial (1=tap water 0=rainwater),0,NA,NA,NA,NA,NA,NA,Adelaide Australia,field (houses in urban area),01/02/2009,4,decimal,-34.5539,138.36,Aedes notoscriptus,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,text,Williams and Rau 2011. Growth and development performance of the ubiquitous urban mosquito Aedes notoscriptus (Diptera: Culicidae) in Australia varies with water type and temperature. Australian Journal of Entomology 50:2,10.1111/j.1440-6055.2010.00806.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,trait value set to zero because species failed to complete development at this temperature,TRUE,01/01/2011
NA,REI002,development time,mean duration of life stage,11.2,days,0.2,0.1,SEM,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,2,NA,NA,NA,NA,NA,NA,Palm Beach County Florida,field (F4),01/06/2008,4,decimal,26.71,-80.05,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,23.6,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,REI002,development time,mean duration of life stage,10.3,days,0.2,0.2,SEM,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,3,NA,NA,NA,NA,NA,NA,Palm Beach County Florida,field (F4),01/06/2008,4,decimal,26.71,-80.05,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,23.6,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,REI002,development time,mean duration of life stage,9,days,0.1,0.6,SEM,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,1,NA,NA,NA,NA,NA,NA,Palm Beach County Florida,field (F4),01/06/2008,4,decimal,26.71,-80.05,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,27.4,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,REI002,development time,mean duration of life stage,9.3,days,1.4,1.4,SEM,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,2,NA,NA,NA,NA,NA,NA,Palm Beach County Florida,field (F4),01/06/2008,4,decimal,26.71,-80.05,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,27.4,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,REI002,development time,mean duration of life stage,8,days,0.4,0,SEM,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,quantity of food provided during larval stage 1= high 2= medium 3= low,3,NA,NA,NA,NA,NA,NA,Palm Beach County Florida,field (F4),01/06/2008,4,decimal,26.71,-80.05,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,27.4,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Reiskind and Zarrabi. 2012. Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito Aedes albopictus. Journal of Insect Physiology 58,10.1016/j.jinsphys.2012.04.006,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2012
NA,PEDM1,development time,mean duration of life stage,43.1,days,2.5,2.5,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,07/08/2016,5,decimal,52.3116593,9.805051758,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (hatch to pupa),male,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined number of individuals across replicates (40 multiplied by 5) divided by two assuming a 1:1 male to female ratio,TRUE,01/01/2018
NA,PEDM1,development time,mean duration of life stage,35.9,days,2.6,2.6,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,23/05/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (hatch to pupa),male,12,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined number of individuals across replicates (40 multiplied by 5) divided by two assuming a 1:1 male to female ratio,TRUE,01/01/2018
NA,PEDM1,development time,mean duration of life stage,23.9,days,2.1,2.1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,23/05/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (hatch to pupa),male,14,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined number of individuals across replicates (40 multiplied by 5) divided by two assuming a 1:1 male to female ratio,TRUE,01/01/2018
NA,MSS0067,ovariole count,mean number of ovarioles per individual,104,ovarioles individual-1,24,24,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing water type,binomial (1=tap water 0=rainwater),1,NA,NA,NA,NA,NA,NA,Adelaide Australia,field (houses in urban area),01/02/2009,4,decimal,-34.5539,138.36,Aedes notoscriptus,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,adult,NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Williams and Rau 2011. Growth and development performance of the ubiquitous urban mosquito Aedes notoscriptus (Diptera: Culicidae) in Australia varies with water type and temperature. Australian Journal of Entomology 50:2,10.1111/j.1440-6055.2010.00806.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2011
NA,MSS0067,ovariole count,mean number of ovarioles per individual,109.8,ovarioles individual-1,14,14,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing water type,binomial (1=tap water 0=rainwater),1,NA,NA,NA,NA,NA,NA,Adelaide Australia,field (houses in urban area),01/02/2009,4,decimal,-34.5539,138.36,Aedes notoscriptus,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Williams and Rau 2011. Growth and development performance of the ubiquitous urban mosquito Aedes notoscriptus (Diptera: Culicidae) in Australia varies with water type and temperature. Australian Journal of Entomology 50:2,10.1111/j.1440-6055.2010.00806.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2011
NA,MSS0067,ovariole count,mean number of ovarioles per individual,108,ovarioles individual-1,27.8,27.8,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing water type,binomial (1=tap water 0=rainwater),1,NA,NA,NA,NA,NA,NA,Adelaide Australia,field (houses in urban area),01/02/2009,4,decimal,-34.5539,138.36,Aedes notoscriptus,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Williams and Rau 2011. Growth and development performance of the ubiquitous urban mosquito Aedes notoscriptus (Diptera: Culicidae) in Australia varies with water type and temperature. Australian Journal of Entomology 50:2,10.1111/j.1440-6055.2010.00806.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2011
NA,MSS0067,ovariole count,mean number of ovarioles per individual,103.4,ovarioles individual-1,10.8,10.8,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing water type,binomial (1=tap water 0=rainwater),1,NA,NA,NA,NA,NA,NA,Adelaide Australia,field (houses in urban area),01/02/2009,4,decimal,-34.5539,138.36,Aedes notoscriptus,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,adult,NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Williams and Rau 2011. Growth and development performance of the ubiquitous urban mosquito Aedes notoscriptus (Diptera: Culicidae) in Australia varies with water type and temperature. Australian Journal of Entomology 50:2,10.1111/j.1440-6055.2010.00806.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2011
NA,MSS0067,ovariole count,mean number of ovarioles per individual,121.6,ovarioles individual-1,16.2,16.2,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing water type,binomial (1=tap water 0=rainwater),0,NA,NA,NA,NA,NA,NA,Adelaide Australia,field (houses in urban area),01/02/2009,4,decimal,-34.5539,138.36,Aedes notoscriptus,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,adult,NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Williams and Rau 2011. Growth and development performance of the ubiquitous urban mosquito Aedes notoscriptus (Diptera: Culicidae) in Australia varies with water type and temperature. Australian Journal of Entomology 50:2,10.1111/j.1440-6055.2010.00806.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2011
NA,MSS0067,ovariole count,mean number of ovarioles per individual,142.2,ovarioles individual-1,16.2,16.2,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing water type,binomial (1=tap water 0=rainwater),0,NA,NA,NA,NA,NA,NA,Adelaide Australia,field (houses in urban area),01/02/2009,4,decimal,-34.5539,138.36,Aedes notoscriptus,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Williams and Rau 2011. Growth and development performance of the ubiquitous urban mosquito Aedes notoscriptus (Diptera: Culicidae) in Australia varies with water type and temperature. Australian Journal of Entomology 50:2,10.1111/j.1440-6055.2010.00806.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2011
NA,MSS0067,ovariole count,mean number of ovarioles per individual,139.4,ovarioles individual-1,18.2,18.2,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing water type,binomial (1=tap water 0=rainwater),0,NA,NA,NA,NA,NA,NA,Adelaide Australia,field (houses in urban area),01/02/2009,4,decimal,-34.5539,138.36,Aedes notoscriptus,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Williams and Rau 2011. Growth and development performance of the ubiquitous urban mosquito Aedes notoscriptus (Diptera: Culicidae) in Australia varies with water type and temperature. Australian Journal of Entomology 50:2,10.1111/j.1440-6055.2010.00806.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2011
NA,MSS0067,ovariole count,mean number of ovarioles per individual,118.6,ovarioles individual-1,19.5,19.5,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing water type,binomial (1=tap water 0=rainwater),0,NA,NA,NA,NA,NA,NA,Adelaide Australia,field (houses in urban area),01/02/2009,4,decimal,-34.5539,138.36,Aedes notoscriptus,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,adult,NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Williams and Rau 2011. Growth and development performance of the ubiquitous urban mosquito Aedes notoscriptus (Diptera: Culicidae) in Australia varies with water type and temperature. Australian Journal of Entomology 50:2,10.1111/j.1440-6055.2010.00806.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2011
NA,MSS0068,body size,mean wing length,3.08,mm,0.51,0.51,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing water type,binomial (1=tap water 0=rainwater),1,NA,NA,NA,NA,NA,NA,Adelaide Australia,field (houses in urban area),01/02/2009,4,decimal,-34.5539,138.36,Aedes notoscriptus,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,adult,NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Williams and Rau 2011. Growth and development performance of the ubiquitous urban mosquito Aedes notoscriptus (Diptera: Culicidae) in Australia varies with water type and temperature. Australian Journal of Entomology 50:2,10.1111/j.1440-6055.2010.00806.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2011
NA,MSS0068,body size,mean wing length,2.99,mm,0.57,0.57,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing water type,binomial (1=tap water 0=rainwater),1,NA,NA,NA,NA,NA,NA,Adelaide Australia,field (houses in urban area),01/02/2009,4,decimal,-34.5539,138.36,Aedes notoscriptus,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Williams and Rau 2011. Growth and development performance of the ubiquitous urban mosquito Aedes notoscriptus (Diptera: Culicidae) in Australia varies with water type and temperature. Australian Journal of Entomology 50:2,10.1111/j.1440-6055.2010.00806.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2011
NA,MSS0068,body size,mean wing length,2.83,mm,0.54,0.54,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing water type,binomial (1=tap water 0=rainwater),1,NA,NA,NA,NA,NA,NA,Adelaide Australia,field (houses in urban area),01/02/2009,4,decimal,-34.5539,138.36,Aedes notoscriptus,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Williams and Rau 2011. Growth and development performance of the ubiquitous urban mosquito Aedes notoscriptus (Diptera: Culicidae) in Australia varies with water type and temperature. Australian Journal of Entomology 50:2,10.1111/j.1440-6055.2010.00806.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2011
NA,MSS0068,body size,mean wing length,2.49,mm,0.47,0.47,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing water type,binomial (1=tap water 0=rainwater),1,NA,NA,NA,NA,NA,NA,Adelaide Australia,field (houses in urban area),01/02/2009,4,decimal,-34.5539,138.36,Aedes notoscriptus,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,adult,NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Williams and Rau 2011. Growth and development performance of the ubiquitous urban mosquito Aedes notoscriptus (Diptera: Culicidae) in Australia varies with water type and temperature. Australian Journal of Entomology 50:2,10.1111/j.1440-6055.2010.00806.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2011
NA,MSS0068,body size,mean wing length,3.12,mm,0.31,0.31,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing water type,binomial (1=tap water 0=rainwater),0,NA,NA,NA,NA,NA,NA,Adelaide Australia,field (houses in urban area),01/02/2009,4,decimal,-34.5539,138.36,Aedes notoscriptus,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,adult,NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Williams and Rau 2011. Growth and development performance of the ubiquitous urban mosquito Aedes notoscriptus (Diptera: Culicidae) in Australia varies with water type and temperature. Australian Journal of Entomology 50:2,10.1111/j.1440-6055.2010.00806.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2011
NA,MSS0068,body size,mean wing length,3.15,mm,0.49,0.49,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing water type,binomial (1=tap water 0=rainwater),0,NA,NA,NA,NA,NA,NA,Adelaide Australia,field (houses in urban area),01/02/2009,4,decimal,-34.5539,138.36,Aedes notoscriptus,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,adult,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Williams and Rau 2011. Growth and development performance of the ubiquitous urban mosquito Aedes notoscriptus (Diptera: Culicidae) in Australia varies with water type and temperature. Australian Journal of Entomology 50:2,10.1111/j.1440-6055.2010.00806.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2011
NA,MSS0068,body size,mean wing length,3.09,mm,0.44,0.44,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing water type,binomial (1=tap water 0=rainwater),0,NA,NA,NA,NA,NA,NA,Adelaide Australia,field (houses in urban area),01/02/2009,4,decimal,-34.5539,138.36,Aedes notoscriptus,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Williams and Rau 2011. Growth and development performance of the ubiquitous urban mosquito Aedes notoscriptus (Diptera: Culicidae) in Australia varies with water type and temperature. Australian Journal of Entomology 50:2,10.1111/j.1440-6055.2010.00806.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2011
NA,MSS0068,body size,mean wing length,2.87,mm,0.45,0.45,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing water type,binomial (1=tap water 0=rainwater),0,NA,NA,NA,NA,NA,NA,Adelaide Australia,field (houses in urban area),01/02/2009,4,decimal,-34.5539,138.36,Aedes notoscriptus,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,adult,NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Williams and Rau 2011. Growth and development performance of the ubiquitous urban mosquito Aedes notoscriptus (Diptera: Culicidae) in Australia varies with water type and temperature. Australian Journal of Entomology 50:2,10.1111/j.1440-6055.2010.00806.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2011
NA,WY01,survival,percentage of mosquitoes surviving post infection periods as a function of temperature dpi and CHIKV strain,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,CHIKV strain,1* 10^7 pfu/mL concentration dosage of Asian (=1) or ECSA (=2) strain,1,pfu/mL,NA,NA,3,days,days post infection,Hammond Island Torres Strait Australia,colony,01/07/2014,NA,decimal,-10.5543,142.2188,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Wimalasiri-Yapa et al. 2019. Chikungunya Virus Transmission at Low Temperature by Aedes albopictus Mosquitoes. Pathogens 8:149,10.3390/pathogens8030149,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2019
NA,WY01,survival,percentage of mosquitoes surviving post infection periods as a function of temperature dpi and CHIKV strain,95,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,CHIKV strain,1* 10^7 pfu/mL concentration dosage of Asian (=1) or ECSA (=2) strain,1,pfu/mL,NA,NA,3,days,days post infection,Hammond Island Torres Strait Australia,colony,01/07/2014,NA,decimal,-10.5543,142.2188,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Wimalasiri-Yapa et al. 2019. Chikungunya Virus Transmission at Low Temperature by Aedes albopictus Mosquitoes. Pathogens 8:149,10.3390/pathogens8030149,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2019
NA,WY01,survival,percentage of mosquitoes surviving post infection periods as a function of temperature dpi and CHIKV strain,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,CHIKV strain,1* 10^7 pfu/mL concentration dosage of Asian (=1) or ECSA (=2) strain,2,pfu/mL,NA,NA,3,days,days post infection,Hammond Island Torres Strait Australia,colony,01/07/2014,NA,decimal,-10.5543,142.2188,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Wimalasiri-Yapa et al. 2019. Chikungunya Virus Transmission at Low Temperature by Aedes albopictus Mosquitoes. Pathogens 8:149,10.3390/pathogens8030149,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2019
NA,WY01,survival,percentage of mosquitoes surviving post infection periods as a function of temperature dpi and CHIKV strain,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,CHIKV strain,1* 10^7 pfu/mL concentration dosage of Asian (=1) or ECSA (=2) strain,2,pfu/mL,NA,NA,3,days,days post infection,Hammond Island Torres Strait Australia,colony,01/07/2014,NA,decimal,-10.5543,142.2188,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Wimalasiri-Yapa et al. 2019. Chikungunya Virus Transmission at Low Temperature by Aedes albopictus Mosquitoes. Pathogens 8:149,10.3390/pathogens8030149,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2019
NA,WY01,survival,percentage of mosquitoes surviving post infection periods as a function of temperature dpi and CHIKV strain,95,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,CHIKV strain,1* 10^7 pfu/mL concentration dosage of Asian (=1) or ECSA (=2) strain,1,pfu/mL,NA,NA,7,days,days post infection,Hammond Island Torres Strait Australia,colony,01/07/2014,NA,decimal,-10.5543,142.2188,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Wimalasiri-Yapa et al. 2019. Chikungunya Virus Transmission at Low Temperature by Aedes albopictus Mosquitoes. Pathogens 8:149,10.3390/pathogens8030149,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2019
NA,WY01,survival,percentage of mosquitoes surviving post infection periods as a function of temperature dpi and CHIKV strain,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,CHIKV strain,1* 10^7 pfu/mL concentration dosage of Asian (=1) or ECSA (=2) strain,1,pfu/mL,NA,NA,7,days,days post infection,Hammond Island Torres Strait Australia,colony,01/07/2014,NA,decimal,-10.5543,142.2188,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Wimalasiri-Yapa et al. 2019. Chikungunya Virus Transmission at Low Temperature by Aedes albopictus Mosquitoes. Pathogens 8:149,10.3390/pathogens8030149,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2019
NA,WY01,survival,percentage of mosquitoes surviving post infection periods as a function of temperature dpi and CHIKV strain,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,CHIKV strain,1* 10^7 pfu/mL concentration dosage of Asian (=1) or ECSA (=2) strain,2,pfu/mL,NA,NA,7,days,days post infection,Hammond Island Torres Strait Australia,colony,01/07/2014,NA,decimal,-10.5543,142.2188,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Wimalasiri-Yapa et al. 2019. Chikungunya Virus Transmission at Low Temperature by Aedes albopictus Mosquitoes. Pathogens 8:149,10.3390/pathogens8030149,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2019
NA,WY01,survival,percentage of mosquitoes surviving post infection periods as a function of temperature dpi and CHIKV strain,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,CHIKV strain,1* 10^7 pfu/mL concentration dosage of Asian (=1) or ECSA (=2) strain,2,pfu/mL,NA,NA,7,days,days post infection,Hammond Island Torres Strait Australia,colony,01/07/2014,NA,decimal,-10.5543,142.2188,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Wimalasiri-Yapa et al. 2019. Chikungunya Virus Transmission at Low Temperature by Aedes albopictus Mosquitoes. Pathogens 8:149,10.3390/pathogens8030149,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2019
NA,WY02,infection rate,percentage of mosquitoes containing virus in their bodies (number of positive bodies/total tested) as a function of temperature dpi and CHIKV strain,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,CHIKV strain,1* 10^7 pfu/mL concentration dosage of Asian (=1) or ECSA (=2) strain,1,pfu/mL,NA,NA,3,days,days post infection,Hammond Island Torres Strait Australia,colony,01/07/2014,NA,decimal,-10.5543,142.2188,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Wimalasiri-Yapa et al. 2019. Chikungunya Virus Transmission at Low Temperature by Aedes albopictus Mosquitoes. Pathogens 8:149,10.3390/pathogens8030149,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2019
NA,WY02,infection rate,percentage of mosquitoes containing virus in their bodies (number of positive bodies/total tested) as a function of temperature dpi and CHIKV strain,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,CHIKV strain,1* 10^7 pfu/mL concentration dosage of Asian (=1) or ECSA (=2) strain,1,pfu/mL,NA,NA,3,days,days post infection,Hammond Island Torres Strait Australia,colony,01/07/2014,NA,decimal,-10.5543,142.2188,Aedes albopictus,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Wimalasiri-Yapa et al. 2019. Chikungunya Virus Transmission at Low Temperature by Aedes albopictus Mosquitoes. Pathogens 8:149,10.3390/pathogens8030149,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2019
NA,WY02,infection rate,percentage of mosquitoes containing virus in their bodies (number of positive bodies/total tested) as a function of temperature dpi and CHIKV strain,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,CHIKV strain,1* 10^7 pfu/mL concentration dosage of Asian (=1) or ECSA (=2) strain,2,pfu/mL,NA,NA,3,days,days post infection,Hammond Island Torres Strait Australia,colony,01/07/2014,NA,decimal,-10.5543,142.2188,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Wimalasiri-Yapa et al. 2019. Chikungunya Virus Transmission at Low Temperature by Aedes albopictus Mosquitoes. Pathogens 8:149,10.3390/pathogens8030149,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2019
NA,WY02,infection rate,percentage of mosquitoes containing virus in their bodies (number of positive bodies/total tested) as a function of temperature dpi and CHIKV strain,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,CHIKV strain,1* 10^7 pfu/mL concentration dosage of Asian (=1) or ECSA (=2) strain,2,pfu/mL,NA,NA,3,days,days post infection,Hammond Island Torres Strait Australia,colony,01/07/2014,NA,decimal,-10.5543,142.2188,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Wimalasiri-Yapa et al. 2019. Chikungunya Virus Transmission at Low Temperature by Aedes albopictus Mosquitoes. Pathogens 8:149,10.3390/pathogens8030149,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2019
NA,WY02,infection rate,percentage of mosquitoes containing virus in their bodies (number of positive bodies/total tested) as a function of temperature dpi and CHIKV strain,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,CHIKV strain,1* 10^7 pfu/mL concentration dosage of Asian (=1) or ECSA (=2) strain,1,pfu/mL,NA,NA,7,days,days post infection,Hammond Island Torres Strait Australia,colony,01/07/2014,NA,decimal,-10.5543,142.2188,Aedes albopictus,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Wimalasiri-Yapa et al. 2019. Chikungunya Virus Transmission at Low Temperature by Aedes albopictus Mosquitoes. Pathogens 8:149,10.3390/pathogens8030149,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2019
NA,WY02,infection rate,percentage of mosquitoes containing virus in their bodies (number of positive bodies/total tested) as a function of temperature dpi and CHIKV strain,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,CHIKV strain,1* 10^7 pfu/mL concentration dosage of Asian (=1) or ECSA (=2) strain,1,pfu/mL,NA,NA,7,days,days post infection,Hammond Island Torres Strait Australia,colony,01/07/2014,NA,decimal,-10.5543,142.2188,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Wimalasiri-Yapa et al. 2019. Chikungunya Virus Transmission at Low Temperature by Aedes albopictus Mosquitoes. Pathogens 8:149,10.3390/pathogens8030149,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2019
NA,WY02,infection rate,percentage of mosquitoes containing virus in their bodies (number of positive bodies/total tested) as a function of temperature dpi and CHIKV strain,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,CHIKV strain,1* 10^7 pfu/mL concentration dosage of Asian (=1) or ECSA (=2) strain,2,pfu/mL,NA,NA,7,days,days post infection,Hammond Island Torres Strait Australia,colony,01/07/2014,NA,decimal,-10.5543,142.2188,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Wimalasiri-Yapa et al. 2019. Chikungunya Virus Transmission at Low Temperature by Aedes albopictus Mosquitoes. Pathogens 8:149,10.3390/pathogens8030149,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2019
NA,WY02,infection rate,percentage of mosquitoes containing virus in their bodies (number of positive bodies/total tested) as a function of temperature dpi and CHIKV strain,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,CHIKV strain,1* 10^7 pfu/mL concentration dosage of Asian (=1) or ECSA (=2) strain,2,pfu/mL,NA,NA,7,days,days post infection,Hammond Island Torres Strait Australia,colony,01/07/2014,NA,decimal,-10.5543,142.2188,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Wimalasiri-Yapa et al. 2019. Chikungunya Virus Transmission at Low Temperature by Aedes albopictus Mosquitoes. Pathogens 8:149,10.3390/pathogens8030149,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2019
NA,WY03,dissemination rate,percentage of mosquitoes disseminating CHIKV (i.e. containing virus in their wings and legs (number of positive leg/wing samples/ total infected mosquitoes) as a function of temperature dpi and CHIKV strain,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,CHIKV strain,1* 10^7 pfu/mL concentration dosage of Asian (=1) or ECSA (=2) strain,1,pfu/mL,NA,NA,3,days,days post infection,Hammond Island Torres Strait Australia,colony,01/07/2014,NA,decimal,-10.5543,142.2188,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Wimalasiri-Yapa et al. 2019. Chikungunya Virus Transmission at Low Temperature by Aedes albopictus Mosquitoes. Pathogens 8:149,10.3390/pathogens8030149,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2019
NA,WY03,dissemination rate,percentage of mosquitoes disseminating CHIKV (i.e. containing virus in their wings and legs (number of positive leg/wing samples/ total infected mosquitoes) as a function of temperature dpi and CHIKV strain,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,CHIKV strain,1* 10^7 pfu/mL concentration dosage of Asian (=1) or ECSA (=2) strain,1,pfu/mL,NA,NA,3,days,days post infection,Hammond Island Torres Strait Australia,colony,01/07/2014,NA,decimal,-10.5543,142.2188,Aedes albopictus,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Wimalasiri-Yapa et al. 2019. Chikungunya Virus Transmission at Low Temperature by Aedes albopictus Mosquitoes. Pathogens 8:149,10.3390/pathogens8030149,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2019
NA,WY03,dissemination rate,percentage of mosquitoes disseminating CHIKV (i.e. containing virus in their wings and legs (number of positive leg/wing samples/ total infected mosquitoes) as a function of temperature dpi and CHIKV strain,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,CHIKV strain,1* 10^7 pfu/mL concentration dosage of Asian (=1) or ECSA (=2) strain,2,pfu/mL,NA,NA,3,days,days post infection,Hammond Island Torres Strait Australia,colony,01/07/2014,NA,decimal,-10.5543,142.2188,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Wimalasiri-Yapa et al. 2019. Chikungunya Virus Transmission at Low Temperature by Aedes albopictus Mosquitoes. Pathogens 8:149,10.3390/pathogens8030149,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2019
NA,WY03,dissemination rate,percentage of mosquitoes disseminating CHIKV (i.e. containing virus in their wings and legs (number of positive leg/wing samples/ total infected mosquitoes) as a function of temperature dpi and CHIKV strain,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,CHIKV strain,1* 10^7 pfu/mL concentration dosage of Asian (=1) or ECSA (=2) strain,2,pfu/mL,NA,NA,3,days,days post infection,Hammond Island Torres Strait Australia,colony,01/07/2014,NA,decimal,-10.5543,142.2188,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Wimalasiri-Yapa et al. 2019. Chikungunya Virus Transmission at Low Temperature by Aedes albopictus Mosquitoes. Pathogens 8:149,10.3390/pathogens8030149,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2019
NA,WY03,dissemination rate,percentage of mosquitoes disseminating CHIKV (i.e. containing virus in their wings and legs (number of positive leg/wing samples/ total infected mosquitoes) as a function of temperature dpi and CHIKV strain,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,CHIKV strain,1* 10^7 pfu/mL concentration dosage of Asian (=1) or ECSA (=2) strain,1,pfu/mL,NA,NA,7,days,days post infection,Hammond Island Torres Strait Australia,colony,01/07/2014,NA,decimal,-10.5543,142.2188,Aedes albopictus,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Wimalasiri-Yapa et al. 2019. Chikungunya Virus Transmission at Low Temperature by Aedes albopictus Mosquitoes. Pathogens 8:149,10.3390/pathogens8030149,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2019
NA,WY03,dissemination rate,percentage of mosquitoes disseminating CHIKV (i.e. containing virus in their wings and legs (number of positive leg/wing samples/ total infected mosquitoes) as a function of temperature dpi and CHIKV strain,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,CHIKV strain,1* 10^7 pfu/mL concentration dosage of Asian (=1) or ECSA (=2) strain,1,pfu/mL,NA,NA,7,days,days post infection,Hammond Island Torres Strait Australia,colony,01/07/2014,NA,decimal,-10.5543,142.2188,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Wimalasiri-Yapa et al. 2019. Chikungunya Virus Transmission at Low Temperature by Aedes albopictus Mosquitoes. Pathogens 8:149,10.3390/pathogens8030149,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2019
NA,WY03,dissemination rate,percentage of mosquitoes disseminating CHIKV (i.e. containing virus in their wings and legs (number of positive leg/wing samples/ total infected mosquitoes) as a function of temperature dpi and CHIKV strain,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,CHIKV strain,1* 10^7 pfu/mL concentration dosage of Asian (=1) or ECSA (=2) strain,2,pfu/mL,NA,NA,7,days,days post infection,Hammond Island Torres Strait Australia,colony,01/07/2014,NA,decimal,-10.5543,142.2188,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Wimalasiri-Yapa et al. 2019. Chikungunya Virus Transmission at Low Temperature by Aedes albopictus Mosquitoes. Pathogens 8:149,10.3390/pathogens8030149,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2019
NA,WY03,dissemination rate,percentage of mosquitoes disseminating CHIKV (i.e. containing virus in their wings and legs (number of positive leg/wing samples/ total infected mosquitoes) as a function of temperature dpi and CHIKV strain,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,CHIKV strain,1* 10^7 pfu/mL concentration dosage of Asian (=1) or ECSA (=2) strain,2,pfu/mL,NA,NA,7,days,days post infection,Hammond Island Torres Strait Australia,colony,01/07/2014,NA,decimal,-10.5543,142.2188,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Wimalasiri-Yapa et al. 2019. Chikungunya Virus Transmission at Low Temperature by Aedes albopictus Mosquitoes. Pathogens 8:149,10.3390/pathogens8030149,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2019
NA,WY04,transmissibility,percentage of mosquitoes containing virus in their saliva (number of positive saliva samples/total infected mosquitoes) thus potentially capable of transmission as a function of temperature dpi and CHIKV strain,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,CHIKV strain,1* 10^7 pfu/mL concentration dosage of Asian (=1) or ECSA (=2) strain,1,pfu/mL,NA,NA,3,days,days post infection,Hammond Island Torres Strait Australia,colony,01/07/2014,NA,decimal,-10.5543,142.2188,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Wimalasiri-Yapa et al. 2019. Chikungunya Virus Transmission at Low Temperature by Aedes albopictus Mosquitoes. Pathogens 8:149,10.3390/pathogens8030149,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2019
NA,WY04,transmissibility,percentage of mosquitoes containing virus in their saliva (number of positive saliva samples/total infected mosquitoes) thus potentially capable of transmission as a function of temperature dpi and CHIKV strain,10.53,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,CHIKV strain,1* 10^7 pfu/mL concentration dosage of Asian (=1) or ECSA (=2) strain,1,pfu/mL,NA,NA,3,days,days post infection,Hammond Island Torres Strait Australia,colony,01/07/2014,NA,decimal,-10.5543,142.2188,Aedes albopictus,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Wimalasiri-Yapa et al. 2019. Chikungunya Virus Transmission at Low Temperature by Aedes albopictus Mosquitoes. Pathogens 8:149,10.3390/pathogens8030149,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2019
NA,WY04,transmissibility,percentage of mosquitoes containing virus in their saliva (number of positive saliva samples/total infected mosquitoes) thus potentially capable of transmission as a function of temperature dpi and CHIKV strain,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,CHIKV strain,1* 10^7 pfu/mL concentration dosage of Asian (=1) or ECSA (=2) strain,2,pfu/mL,NA,NA,3,days,days post infection,Hammond Island Torres Strait Australia,colony,01/07/2014,NA,decimal,-10.5543,142.2188,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Wimalasiri-Yapa et al. 2019. Chikungunya Virus Transmission at Low Temperature by Aedes albopictus Mosquitoes. Pathogens 8:149,10.3390/pathogens8030149,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2019
NA,WY04,transmissibility,percentage of mosquitoes containing virus in their saliva (number of positive saliva samples/total infected mosquitoes) thus potentially capable of transmission as a function of temperature dpi and CHIKV strain,25,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,CHIKV strain,1* 10^7 pfu/mL concentration dosage of Asian (=1) or ECSA (=2) strain,2,pfu/mL,NA,NA,3,days,days post infection,Hammond Island Torres Strait Australia,colony,01/07/2014,NA,decimal,-10.5543,142.2188,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Wimalasiri-Yapa et al. 2019. Chikungunya Virus Transmission at Low Temperature by Aedes albopictus Mosquitoes. Pathogens 8:149,10.3390/pathogens8030149,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2019
NA,WY04,transmissibility,percentage of mosquitoes containing virus in their saliva (number of positive saliva samples/total infected mosquitoes) thus potentially capable of transmission as a function of temperature dpi and CHIKV strain,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,CHIKV strain,1* 10^7 pfu/mL concentration dosage of Asian (=1) or ECSA (=2) strain,1,pfu/mL,NA,NA,7,days,days post infection,Hammond Island Torres Strait Australia,colony,01/07/2014,NA,decimal,-10.5543,142.2188,Aedes albopictus,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Wimalasiri-Yapa et al. 2019. Chikungunya Virus Transmission at Low Temperature by Aedes albopictus Mosquitoes. Pathogens 8:149,10.3390/pathogens8030149,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2019
NA,WY04,transmissibility,percentage of mosquitoes containing virus in their saliva (number of positive saliva samples/total infected mosquitoes) thus potentially capable of transmission as a function of temperature dpi and CHIKV strain,20,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,CHIKV strain,1* 10^7 pfu/mL concentration dosage of Asian (=1) or ECSA (=2) strain,1,pfu/mL,NA,NA,7,days,days post infection,Hammond Island Torres Strait Australia,colony,01/07/2014,NA,decimal,-10.5543,142.2188,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Wimalasiri-Yapa et al. 2019. Chikungunya Virus Transmission at Low Temperature by Aedes albopictus Mosquitoes. Pathogens 8:149,10.3390/pathogens8030149,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2019
NA,WY04,transmissibility,percentage of mosquitoes containing virus in their saliva (number of positive saliva samples/total infected mosquitoes) thus potentially capable of transmission as a function of temperature dpi and CHIKV strain,25,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,CHIKV strain,1* 10^7 pfu/mL concentration dosage of Asian (=1) or ECSA (=2) strain,2,pfu/mL,NA,NA,7,days,days post infection,Hammond Island Torres Strait Australia,colony,01/07/2014,NA,decimal,-10.5543,142.2188,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Wimalasiri-Yapa et al. 2019. Chikungunya Virus Transmission at Low Temperature by Aedes albopictus Mosquitoes. Pathogens 8:149,10.3390/pathogens8030149,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2019
NA,WY04,transmissibility,percentage of mosquitoes containing virus in their saliva (number of positive saliva samples/total infected mosquitoes) thus potentially capable of transmission as a function of temperature dpi and CHIKV strain,20,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,CHIKV strain,1* 10^7 pfu/mL concentration dosage of Asian (=1) or ECSA (=2) strain,2,pfu/mL,NA,NA,7,days,days post infection,Hammond Island Torres Strait Australia,colony,01/07/2014,NA,decimal,-10.5543,142.2188,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Wimalasiri-Yapa et al. 2019. Chikungunya Virus Transmission at Low Temperature by Aedes albopictus Mosquitoes. Pathogens 8:149,10.3390/pathogens8030149,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2019
NA,WY05,CHIKV RNA copies,CHIKV RNA copies,5760000,median copies,2070000,6490000,second and forth quantile,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,CHIKV strain,1* 10^7 pfu/mL concentration dosage of Asian (=1) or ECSA (=2) strain,1,pfu/mL,NA,NA,3,days,days post infection,Hammond Island Torres Strait Australia,colony,01/07/2014,NA,decimal,-10.5543,142.2188,Aedes albopictus,NA,body,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Wimalasiri-Yapa et al. 2019. Chikungunya Virus Transmission at Low Temperature by Aedes albopictus Mosquitoes. Pathogens 8:149,10.3390/pathogens8030149,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2019
NA,WY05,CHIKV RNA copies,CHIKV RNA copies,267000000,median copies,112000000,378000000,second and forth quantile,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,CHIKV strain,1* 10^7 pfu/mL concentration dosage of Asian (=1) or ECSA (=2) strain,2,pfu/mL,NA,NA,3,days,days post infection,Hammond Island Torres Strait Australia,colony,01/07/2014,NA,decimal,-10.5543,142.2188,Aedes albopictus,NA,body,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Wimalasiri-Yapa et al. 2019. Chikungunya Virus Transmission at Low Temperature by Aedes albopictus Mosquitoes. Pathogens 8:149,10.3390/pathogens8030149,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2019
NA,WY05,CHIKV RNA copies,CHIKV RNA copies,4310000,median copies,1930000,10300000,second and forth quantile,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,CHIKV strain,1* 10^7 pfu/mL concentration dosage of Asian (=1) or ECSA (=2) strain,1,pfu/mL,NA,NA,7,days,days post infection,Hammond Island Torres Strait Australia,colony,01/07/2014,NA,decimal,-10.5543,142.2188,Aedes albopictus,NA,body,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Wimalasiri-Yapa et al. 2019. Chikungunya Virus Transmission at Low Temperature by Aedes albopictus Mosquitoes. Pathogens 8:149,10.3390/pathogens8030149,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2019
NA,WY05,CHIKV RNA copies,CHIKV RNA copies,191000000,median copies,113000000,387000000,second and forth quantile,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,CHIKV strain,1* 10^7 pfu/mL concentration dosage of Asian (=1) or ECSA (=2) strain,2,pfu/mL,NA,NA,7,days,days post infection,Hammond Island Torres Strait Australia,colony,01/07/2014,NA,decimal,-10.5543,142.2188,Aedes albopictus,NA,body,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Wimalasiri-Yapa et al. 2019. Chikungunya Virus Transmission at Low Temperature by Aedes albopictus Mosquitoes. Pathogens 8:149,10.3390/pathogens8030149,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2019
NA,WY05,CHIKV RNA copies,CHIKV RNA copies,54600000,median copies,31400000,92500000,second and forth quantile,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,CHIKV strain,1* 10^7 pfu/mL concentration dosage of Asian (=1) or ECSA (=2) strain,1,pfu/mL,NA,NA,3,days,days post infection,Hammond Island Torres Strait Australia,colony,01/07/2014,NA,decimal,-10.5543,142.2188,Aedes albopictus,NA,body,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Wimalasiri-Yapa et al. 2019. Chikungunya Virus Transmission at Low Temperature by Aedes albopictus Mosquitoes. Pathogens 8:149,10.3390/pathogens8030149,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2019
NA,WY05,CHIKV RNA copies,CHIKV RNA copies,439000000,median copies,103000000,952000000,second and forth quantile,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,CHIKV strain,1* 10^7 pfu/mL concentration dosage of Asian (=1) or ECSA (=2) strain,2,pfu/mL,NA,NA,3,days,days post infection,Hammond Island Torres Strait Australia,colony,01/07/2014,NA,decimal,-10.5543,142.2188,Aedes albopictus,NA,body,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Wimalasiri-Yapa et al. 2019. Chikungunya Virus Transmission at Low Temperature by Aedes albopictus Mosquitoes. Pathogens 8:149,10.3390/pathogens8030149,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2019
NA,WY05,CHIKV RNA copies,CHIKV RNA copies,441000000,median copies,160000000,960000000,second and forth quantile,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,CHIKV strain,1* 10^7 pfu/mL concentration dosage of Asian (=1) or ECSA (=2) strain,1,pfu/mL,NA,NA,7,days,days post infection,Hammond Island Torres Strait Australia,colony,01/07/2014,NA,decimal,-10.5543,142.2188,Aedes albopictus,NA,body,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Wimalasiri-Yapa et al. 2019. Chikungunya Virus Transmission at Low Temperature by Aedes albopictus Mosquitoes. Pathogens 8:149,10.3390/pathogens8030149,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2019
NA,WY05,CHIKV RNA copies,CHIKV RNA copies,620000000,median copies,407000000,842000000,second and forth quantile,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,CHIKV strain,1* 10^7 pfu/mL concentration dosage of Asian (=1) or ECSA (=2) strain,2,pfu/mL,NA,NA,7,days,days post infection,Hammond Island Torres Strait Australia,colony,01/07/2014,NA,decimal,-10.5543,142.2188,Aedes albopictus,NA,body,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Wimalasiri-Yapa et al. 2019. Chikungunya Virus Transmission at Low Temperature by Aedes albopictus Mosquitoes. Pathogens 8:149,10.3390/pathogens8030149,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2019
NA,WY06,CHIKV RNA copies,CHIKV RNA copies,7880,median copies,5880,12500,second and forth quantile,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,CHIKV strain,1* 10^7 pfu/mL concentration dosage of Asian (=1) or ECSA (=2) strain,1,pfu/mL,NA,NA,3,days,days post infection,Hammond Island Torres Strait Australia,colony,01/07/2014,NA,decimal,-10.5543,142.2188,Aedes albopictus,NA,wings and legs,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Wimalasiri-Yapa et al. 2019. Chikungunya Virus Transmission at Low Temperature by Aedes albopictus Mosquitoes. Pathogens 8:149,10.3390/pathogens8030149,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2019
NA,WY06,CHIKV RNA copies,CHIKV RNA copies,54400,median copies,2940,211000,second and forth quantile,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,CHIKV strain,1* 10^7 pfu/mL concentration dosage of Asian (=1) or ECSA (=2) strain,2,pfu/mL,NA,NA,3,days,days post infection,Hammond Island Torres Strait Australia,colony,01/07/2014,NA,decimal,-10.5543,142.2188,Aedes albopictus,NA,wings and legs,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Wimalasiri-Yapa et al. 2019. Chikungunya Virus Transmission at Low Temperature by Aedes albopictus Mosquitoes. Pathogens 8:149,10.3390/pathogens8030149,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2019
NA,WY06,CHIKV RNA copies,CHIKV RNA copies,28100,median copies,18300,42500,second and forth quantile,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,CHIKV strain,1* 10^7 pfu/mL concentration dosage of Asian (=1) or ECSA (=2) strain,1,pfu/mL,NA,NA,7,days,days post infection,Hammond Island Torres Strait Australia,colony,01/07/2014,NA,decimal,-10.5543,142.2188,Aedes albopictus,NA,wings and legs,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Wimalasiri-Yapa et al. 2019. Chikungunya Virus Transmission at Low Temperature by Aedes albopictus Mosquitoes. Pathogens 8:149,10.3390/pathogens8030149,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2019
NA,WY06,CHIKV RNA copies,CHIKV RNA copies,97400,median copies,59800,8990000,second and forth quantile,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,CHIKV strain,1* 10^7 pfu/mL concentration dosage of Asian (=1) or ECSA (=2) strain,2,pfu/mL,NA,NA,7,days,days post infection,Hammond Island Torres Strait Australia,colony,01/07/2014,NA,decimal,-10.5543,142.2188,Aedes albopictus,NA,wings and legs,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Wimalasiri-Yapa et al. 2019. Chikungunya Virus Transmission at Low Temperature by Aedes albopictus Mosquitoes. Pathogens 8:149,10.3390/pathogens8030149,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2019
NA,WY06,CHIKV RNA copies,CHIKV RNA copies,6550,median copies,3860,128000,second and forth quantile,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,CHIKV strain,1* 10^7 pfu/mL concentration dosage of Asian (=1) or ECSA (=2) strain,1,pfu/mL,NA,NA,3,days,days post infection,Hammond Island Torres Strait Australia,colony,01/07/2014,NA,decimal,-10.5543,142.2188,Aedes albopictus,NA,wings and legs,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Wimalasiri-Yapa et al. 2019. Chikungunya Virus Transmission at Low Temperature by Aedes albopictus Mosquitoes. Pathogens 8:149,10.3390/pathogens8030149,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2019
NA,WY06,CHIKV RNA copies,CHIKV RNA copies,80800,median copies,37000,8910000,second and forth quantile,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,CHIKV strain,1* 10^7 pfu/mL concentration dosage of Asian (=1) or ECSA (=2) strain,2,pfu/mL,NA,NA,3,days,days post infection,Hammond Island Torres Strait Australia,colony,01/07/2014,NA,decimal,-10.5543,142.2188,Aedes albopictus,NA,wings and legs,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Wimalasiri-Yapa et al. 2019. Chikungunya Virus Transmission at Low Temperature by Aedes albopictus Mosquitoes. Pathogens 8:149,10.3390/pathogens8030149,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2019
NA,WY06,CHIKV RNA copies,CHIKV RNA copies,23800,median copies,8520,665000,second and forth quantile,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,CHIKV strain,1* 10^7 pfu/mL concentration dosage of Asian (=1) or ECSA (=2) strain,1,pfu/mL,NA,NA,7,days,days post infection,Hammond Island Torres Strait Australia,colony,01/07/2014,NA,decimal,-10.5543,142.2188,Aedes albopictus,NA,wings and legs,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Wimalasiri-Yapa et al. 2019. Chikungunya Virus Transmission at Low Temperature by Aedes albopictus Mosquitoes. Pathogens 8:149,10.3390/pathogens8030149,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2019
NA,WY06,CHIKV RNA copies,CHIKV RNA copies,105000,median copies,28400,8280000,second and forth quantile,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,CHIKV strain,1* 10^7 pfu/mL concentration dosage of Asian (=1) or ECSA (=2) strain,2,pfu/mL,NA,NA,7,days,days post infection,Hammond Island Torres Strait Australia,colony,01/07/2014,NA,decimal,-10.5543,142.2188,Aedes albopictus,NA,wings and legs,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Wimalasiri-Yapa et al. 2019. Chikungunya Virus Transmission at Low Temperature by Aedes albopictus Mosquitoes. Pathogens 8:149,10.3390/pathogens8030149,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2019
WY01,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),28395.11,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY02,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),173179.7,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY03,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),458485.67,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY04,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),695886.01,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY05,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),1387455.53,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY06,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),1824370.67,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY07,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),2966981.11,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY08,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),2257529.65,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY09,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),2269724.05,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY10,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),1502753.09,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY11,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),1860461.56,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY12,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),2457134.48,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY13,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),3478878.06,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY14,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),4549813.75,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY15,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),4527586.06,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY16,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),8466135.56,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY17,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),7399379.82,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY18,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),7975115.34,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY19,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),14839817.89,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY20,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),42096570.95,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY21,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),9662.99,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY22,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),14666.42,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY23,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),22249.67,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY24,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),44600.96,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY25,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),22162.67,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY26,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),22380.82,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY27,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),68060.66,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY28,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),72215.71,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY29,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),273621.33,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY30,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),311234.37,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY31,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),312915.56,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY32,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),1548323.66,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY33,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),11593979.86,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY34,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),13402596.41,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY35,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),30799960.5,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY36,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),35552364.21,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY37,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),53697481.5,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY38,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),284972702.7,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY39,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),2296559131,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY40,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),12331.94,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY41,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),370877.74,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY42,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),373246.5,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY43,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),7403004.47,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY44,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),18282464.53,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY45,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),34169651.78,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY46,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),36846385.83,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY47,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),44885821.82,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY48,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),83973136.66,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY49,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),63240101.14,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY50,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),102948408.8,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY51,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),59630670.35,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY52,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),96977591.32,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY53,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),73824882.6,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY54,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),97980103.61,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY55,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),127516211.8,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY56,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),157869588.1,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY57,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),256869693.7,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY58,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),480556064.6,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY59,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),781530198.5,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY60,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),13999.69,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY61,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),42594.28,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY62,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),104676.96,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY63,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),98702.52,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY64,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),184473.53,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY65,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),129530.34,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY66,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),908326.03,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY67,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),2087387.02,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY68,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),2584259.08,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY69,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),5539814.4,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY70,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),7847262.58,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY71,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),7805102.11,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY72,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),10409757.77,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY73,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),15638189.04,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY74,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),25444906,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY75,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),25582350.61,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY76,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),16854974.92,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY77,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),20867056.12,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY78,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),331369.05,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY79,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),712089.47,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY80,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),70124577.68,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY81,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),243159660.2,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY82,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),198243782.1,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY83,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),245192548.1,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY84,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),199803284.5,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY85,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),215138875.4,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY86,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),423308718.9,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY87,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),455575954.8,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY88,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),490542979.8,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY89,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),399735225.7,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY90,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),430416282.3,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY91,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),496829092.7,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY92,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),808786887.1,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY93,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),696909169.4,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY94,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),1058281503,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY95,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),1212038690,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY96,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),1908449224,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY97,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),1292979485,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY98,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),12181.88,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY99,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),34675.38,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY100,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),39655.05,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY101,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),52630.03,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY102,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),69169.55,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY103,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),68797.92,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY104,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),86054.76,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY105,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),85634.35,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY106,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),138994.92,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY107,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),210449.46,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY108,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),279170.97,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY109,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),973741.8,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY110,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),63178189.3,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY111,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),110200514.7,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY112,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),167261489.1,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY113,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),272284576.5,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY114,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),770886479.9,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY115,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),1169472663,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY116,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),1023117606,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
WY117,NA,vector competence,individual-level viral titre measured as CHIKV RNA copies per ug total RNA. CHIKV in whole bodies (minus wings and legs),2519278285,RNA copies per ug total RNA,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,7,days,NA,NA,NA,NA,NA,not stated,colony,NA,0,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wimalasiri-Yapa et al. 2021. Temperature modulates immune gene expression in mosquitoes during arbovirus infection. Open Biol. 11: 200246,10.1098/rsob.20.0246,NA,NA,Daniele Da Re,dare.daniele@gmail.com,rearing conditions: 70% RH and 12:12 photoperiod. CHIKV strain from the Asian genotype (GenBank ID: MF77356),TRUE,01/01/2021
NA,NA,infection rate,percentage of mosquitoes that tested positive for ZIKV in their bodies (number of positive mosquitoes/total number of mosquitoes tested) as a function of days post exposure (secondstressor) and temperature,90,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,21,days,NA,NA,NA,NA,NA,Clovis California USA,field (F4),NA,NA,decimal,36.825278,-119.703056,Aedes aegypti,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Winokur et al. 2020. Impact of temperature on the extrinsic incubation period of Zika virus in Aedes aegypti. PLoS Negl Trop Dis 14(3): e0008047.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,An Asian-lineage outbreak strain of ZIKV from Puerto Rico was used. The virus was first isolated from human serum during the outbreak in 2015 (PR15 PRVABC59) passaged four times in Vero cells and sequenced. Mosquitoes were exposed to a dosage of 5.3-5.7 log10 PFU/ml. interactor1number is the number infected from n=20 tested,TRUE,01/01/2020
NA,NA,infection rate,percentage of mosquitoes that tested positive for ZIKV in their bodies (number of positive mosquitoes/total number of mosquitoes tested) as a function of days post exposure (secondstressor) and temperature,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,25,days,NA,NA,NA,NA,NA,Clovis California USA,field (F4),NA,NA,decimal,36.825278,-119.703056,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Winokur et al. 2020. Impact of temperature on the extrinsic incubation period of Zika virus in Aedes aegypti. PLoS Negl Trop Dis 14(3): e0008047.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,An Asian-lineage outbreak strain of ZIKV from Puerto Rico was used. The virus was first isolated from human serum during the outbreak in 2015 (PR15 PRVABC59) passaged four times in Vero cells and sequenced. Mosquitoes were exposed to a dosage of 5.3-5.7 log10 PFU/ml. interactor1number is the number infected from n=20 tested,TRUE,01/01/2020
NA,NA,infection rate,percentage of mosquitoes that tested positive for ZIKV in their bodies (number of positive mosquitoes/total number of mosquitoes tested) as a function of days post exposure (secondstressor) and temperature,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,31,days,NA,NA,NA,NA,NA,Clovis California USA,field (F4),NA,NA,decimal,36.825278,-119.703056,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Winokur et al. 2020. Impact of temperature on the extrinsic incubation period of Zika virus in Aedes aegypti. PLoS Negl Trop Dis 14(3): e0008047.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,An Asian-lineage outbreak strain of ZIKV from Puerto Rico was used. The virus was first isolated from human serum during the outbreak in 2015 (PR15 PRVABC59) passaged four times in Vero cells and sequenced. Mosquitoes were exposed to a dosage of 5.3-5.7 log10 PFU/ml. interactor1number is the number infected from n=20 tested,TRUE,01/01/2020
NA,NA,infection rate,percentage of mosquitoes that tested positive for ZIKV in their bodies (number of positive mosquitoes/total number of mosquitoes tested) as a function of days post exposure (secondstressor) and temperature,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,10,days,NA,NA,NA,NA,NA,Clovis California USA,field (F4),NA,NA,decimal,36.825278,-119.703056,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Winokur et al. 2020. Impact of temperature on the extrinsic incubation period of Zika virus in Aedes aegypti. PLoS Negl Trop Dis 14(3): e0008047.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,An Asian-lineage outbreak strain of ZIKV from Puerto Rico was used. The virus was first isolated from human serum during the outbreak in 2015 (PR15 PRVABC59) passaged four times in Vero cells and sequenced. Mosquitoes were exposed to a dosage of 5.3-5.7 log10 PFU/ml. interactor1number is the number infected from n=20 tested,TRUE,01/01/2020
NA,NA,infection rate,percentage of mosquitoes that tested positive for ZIKV in their bodies (number of positive mosquitoes/total number of mosquitoes tested) as a function of days post exposure (secondstressor) and temperature,90,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,15,days,NA,NA,NA,NA,NA,Clovis California USA,field (F4),NA,NA,decimal,36.825278,-119.703056,Aedes aegypti,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Winokur et al. 2020. Impact of temperature on the extrinsic incubation period of Zika virus in Aedes aegypti. PLoS Negl Trop Dis 14(3): e0008047.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,An Asian-lineage outbreak strain of ZIKV from Puerto Rico was used. The virus was first isolated from human serum during the outbreak in 2015 (PR15 PRVABC59) passaged four times in Vero cells and sequenced. Mosquitoes were exposed to a dosage of 5.3-5.7 log10 PFU/ml. interactor1number is the number infected from n=20 tested,TRUE,01/01/2020
NA,NA,infection rate,percentage of mosquitoes that tested positive for ZIKV in their bodies (number of positive mosquitoes/total number of mosquitoes tested) as a function of days post exposure (secondstressor) and temperature,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,20,days,NA,NA,NA,NA,NA,Clovis California USA,field (F4),NA,NA,decimal,36.825278,-119.703056,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Winokur et al. 2020. Impact of temperature on the extrinsic incubation period of Zika virus in Aedes aegypti. PLoS Negl Trop Dis 14(3): e0008047.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,An Asian-lineage outbreak strain of ZIKV from Puerto Rico was used. The virus was first isolated from human serum during the outbreak in 2015 (PR15 PRVABC59) passaged four times in Vero cells and sequenced. Mosquitoes were exposed to a dosage of 5.3-5.7 log10 PFU/ml. interactor1number is the number infected from n=20 tested,TRUE,01/01/2020
NA,NA,infection rate,percentage of mosquitoes that tested positive for ZIKV in their bodies (number of positive mosquitoes/total number of mosquitoes tested) as a function of days post exposure (secondstressor) and temperature,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,25,days,NA,NA,NA,NA,NA,Clovis California USA,field (F4),NA,NA,decimal,36.825278,-119.703056,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Winokur et al. 2020. Impact of temperature on the extrinsic incubation period of Zika virus in Aedes aegypti. PLoS Negl Trop Dis 14(3): e0008047.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,An Asian-lineage outbreak strain of ZIKV from Puerto Rico was used. The virus was first isolated from human serum during the outbreak in 2015 (PR15 PRVABC59) passaged four times in Vero cells and sequenced. Mosquitoes were exposed to a dosage of 5.3-5.7 log10 PFU/ml. interactor1number is the number infected from n=20 tested,TRUE,01/01/2020
NA,NA,infection rate,percentage of mosquitoes that tested positive for ZIKV in their bodies (number of positive mosquitoes/total number of mosquitoes tested) as a function of days post exposure (secondstressor) and temperature,95,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,5,days,NA,NA,NA,NA,NA,Clovis California USA,field (F4),NA,NA,decimal,36.825278,-119.703056,Aedes aegypti,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Winokur et al. 2020. Impact of temperature on the extrinsic incubation period of Zika virus in Aedes aegypti. PLoS Negl Trop Dis 14(3): e0008047.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,An Asian-lineage outbreak strain of ZIKV from Puerto Rico was used. The virus was first isolated from human serum during the outbreak in 2015 (PR15 PRVABC59) passaged four times in Vero cells and sequenced. Mosquitoes were exposed to a dosage of 5.3-5.7 log10 PFU/ml. interactor1number is the number infected from n=20 tested,TRUE,01/01/2020
NA,NA,infection rate,percentage of mosquitoes that tested positive for ZIKV in their bodies (number of positive mosquitoes/total number of mosquitoes tested) as a function of days post exposure (secondstressor) and temperature,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,10,days,NA,NA,NA,NA,NA,Clovis California USA,field (F4),NA,NA,decimal,36.825278,-119.703056,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Winokur et al. 2020. Impact of temperature on the extrinsic incubation period of Zika virus in Aedes aegypti. PLoS Negl Trop Dis 14(3): e0008047.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,An Asian-lineage outbreak strain of ZIKV from Puerto Rico was used. The virus was first isolated from human serum during the outbreak in 2015 (PR15 PRVABC59) passaged four times in Vero cells and sequenced. Mosquitoes were exposed to a dosage of 5.3-5.7 log10 PFU/ml. interactor1number is the number infected from n=20 tested,TRUE,01/01/2020
NA,NA,infection rate,percentage of mosquitoes that tested positive for ZIKV in their bodies (number of positive mosquitoes/total number of mosquitoes tested) as a function of days post exposure (secondstressor) and temperature,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,15,days,NA,NA,NA,NA,NA,Clovis California USA,field (F4),NA,NA,decimal,36.825278,-119.703056,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Winokur et al. 2020. Impact of temperature on the extrinsic incubation period of Zika virus in Aedes aegypti. PLoS Negl Trop Dis 14(3): e0008047.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,An Asian-lineage outbreak strain of ZIKV from Puerto Rico was used. The virus was first isolated from human serum during the outbreak in 2015 (PR15 PRVABC59) passaged four times in Vero cells and sequenced. Mosquitoes were exposed to a dosage of 5.3-5.7 log10 PFU/ml. interactor1number is the number infected from n=20 tested,TRUE,01/01/2020
NA,NA,infection rate,percentage of mosquitoes that tested positive for ZIKV in their bodies (number of positive mosquitoes/total number of mosquitoes tested) as a function of days post exposure (secondstressor) and temperature,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,20,days,NA,NA,NA,NA,NA,Clovis California USA,field (F4),NA,NA,decimal,36.825278,-119.703056,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Winokur et al. 2020. Impact of temperature on the extrinsic incubation period of Zika virus in Aedes aegypti. PLoS Negl Trop Dis 14(3): e0008047.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,An Asian-lineage outbreak strain of ZIKV from Puerto Rico was used. The virus was first isolated from human serum during the outbreak in 2015 (PR15 PRVABC59) passaged four times in Vero cells and sequenced. Mosquitoes were exposed to a dosage of 5.3-5.7 log10 PFU/ml. interactor1number is the number infected from n=20 tested,TRUE,01/01/2020
NA,NA,infection rate,percentage of mosquitoes that tested positive for ZIKV in their bodies (number of positive mosquitoes/total number of mosquitoes tested) as a function of days post exposure (secondstressor) and temperature,80,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,Clovis California USA,field (F4),NA,NA,decimal,36.825278,-119.703056,Aedes aegypti,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Winokur et al. 2020. Impact of temperature on the extrinsic incubation period of Zika virus in Aedes aegypti. PLoS Negl Trop Dis 14(3): e0008047.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,An Asian-lineage outbreak strain of ZIKV from Puerto Rico was used. The virus was first isolated from human serum during the outbreak in 2015 (PR15 PRVABC59) passaged four times in Vero cells and sequenced. Mosquitoes were exposed to a dosage of 5.3-5.7 log10 PFU/ml. interactor1number is the number infected from n=20 tested,TRUE,01/01/2020
NA,NA,infection rate,percentage of mosquitoes that tested positive for ZIKV in their bodies (number of positive mosquitoes/total number of mosquitoes tested) as a function of days post exposure (secondstressor) and temperature,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,6,days,NA,NA,NA,NA,NA,Clovis California USA,field (F4),NA,NA,decimal,36.825278,-119.703056,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Winokur et al. 2020. Impact of temperature on the extrinsic incubation period of Zika virus in Aedes aegypti. PLoS Negl Trop Dis 14(3): e0008047.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,An Asian-lineage outbreak strain of ZIKV from Puerto Rico was used. The virus was first isolated from human serum during the outbreak in 2015 (PR15 PRVABC59) passaged four times in Vero cells and sequenced. Mosquitoes were exposed to a dosage of 5.3-5.7 log10 PFU/ml. interactor1number is the number infected from n=20 tested,TRUE,01/01/2020
NA,NA,infection rate,percentage of mosquitoes that tested positive for ZIKV in their bodies (number of positive mosquitoes/total number of mosquitoes tested) as a function of days post exposure (secondstressor) and temperature,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,9,days,NA,NA,NA,NA,NA,Clovis California USA,field (F4),NA,NA,decimal,36.825278,-119.703056,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Winokur et al. 2020. Impact of temperature on the extrinsic incubation period of Zika virus in Aedes aegypti. PLoS Negl Trop Dis 14(3): e0008047.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,An Asian-lineage outbreak strain of ZIKV from Puerto Rico was used. The virus was first isolated from human serum during the outbreak in 2015 (PR15 PRVABC59) passaged four times in Vero cells and sequenced. Mosquitoes were exposed to a dosage of 5.3-5.7 log10 PFU/ml. interactor1number is the number infected from n=20 tested,TRUE,01/01/2020
NA,NA,infection rate,percentage of mosquitoes that tested positive for ZIKV in their bodies (number of positive mosquitoes/total number of mosquitoes tested) as a function of days post exposure (secondstressor) and temperature,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,12,days,NA,NA,NA,NA,NA,Clovis California USA,field (F4),NA,NA,decimal,36.825278,-119.703056,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Winokur et al. 2020. Impact of temperature on the extrinsic incubation period of Zika virus in Aedes aegypti. PLoS Negl Trop Dis 14(3): e0008047.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,An Asian-lineage outbreak strain of ZIKV from Puerto Rico was used. The virus was first isolated from human serum during the outbreak in 2015 (PR15 PRVABC59) passaged four times in Vero cells and sequenced. Mosquitoes were exposed to a dosage of 5.3-5.7 log10 PFU/ml. interactor1number is the number infected from n=20 tested,TRUE,01/01/2020
NA,NA,infection rate,percentage of mosquitoes that tested positive for ZIKV in their bodies (number of positive mosquitoes/total number of mosquitoes tested) as a function of days post exposure (secondstressor) and temperature,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,21,days,NA,NA,NA,NA,NA,Clovis California USA,field (F4),NA,NA,decimal,36.825278,-119.703056,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Winokur et al. 2020. Impact of temperature on the extrinsic incubation period of Zika virus in Aedes aegypti. PLoS Negl Trop Dis 14(3): e0008047.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,An Asian-lineage outbreak strain of ZIKV from Puerto Rico was used. The virus was first isolated from human serum during the outbreak in 2015 (PR15 PRVABC59) passaged four times in Vero cells and sequenced. Mosquitoes were exposed to a dosage of 5.3-5.7 log10 PFU/ml. interactor1number is the number infected from n=20 tested,TRUE,01/01/2020
NA,NA,dissemination rate,percentage of mosquito leg/wing samples that were vRNA-positive (ZIKV) out of the total tested,40,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,21,days,NA,NA,NA,NA,NA,Clovis California USA,field (F4),NA,NA,decimal,36.825278,-119.703056,Aedes aegypti,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Winokur et al. 2020. Impact of temperature on the extrinsic incubation period of Zika virus in Aedes aegypti. PLoS Negl Trop Dis 14(3): e0008047.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,An Asian-lineage outbreak strain of ZIKV from Puerto Rico was used. The virus was first isolated from human serum during the outbreak in 2015 (PR15 PRVABC59) passaged four times in Vero cells and sequenced. Mosquitoes were exposed to a dosage of 5.3-5.7 log10 PFU/ml. interactor1number is the number with disseminated infection from n=20 tested,TRUE,01/01/2020
NA,NA,dissemination rate,percentage of mosquito leg/wing samples that were vRNA-positive (ZIKV) out of the total tested,25,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,25,days,NA,NA,NA,NA,NA,Clovis California USA,field (F4),NA,NA,decimal,36.825278,-119.703056,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Winokur et al. 2020. Impact of temperature on the extrinsic incubation period of Zika virus in Aedes aegypti. PLoS Negl Trop Dis 14(3): e0008047.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,An Asian-lineage outbreak strain of ZIKV from Puerto Rico was used. The virus was first isolated from human serum during the outbreak in 2015 (PR15 PRVABC59) passaged four times in Vero cells and sequenced. Mosquitoes were exposed to a dosage of 5.3-5.7 log10 PFU/ml. interactor1number is the number with disseminated infection from n=20 tested,TRUE,01/01/2020
NA,NA,dissemination rate,percentage of mosquito leg/wing samples that were vRNA-positive (ZIKV) out of the total tested,55,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,31,days,NA,NA,NA,NA,NA,Clovis California USA,field (F4),NA,NA,decimal,36.825278,-119.703056,Aedes aegypti,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Winokur et al. 2020. Impact of temperature on the extrinsic incubation period of Zika virus in Aedes aegypti. PLoS Negl Trop Dis 14(3): e0008047.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,An Asian-lineage outbreak strain of ZIKV from Puerto Rico was used. The virus was first isolated from human serum during the outbreak in 2015 (PR15 PRVABC59) passaged four times in Vero cells and sequenced. Mosquitoes were exposed to a dosage of 5.3-5.7 log10 PFU/ml. interactor1number is the number with disseminated infection from n=20 tested,TRUE,01/01/2020
NA,NA,dissemination rate,percentage of mosquito leg/wing samples that were vRNA-positive (ZIKV) out of the total tested,55,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,10,days,NA,NA,NA,NA,NA,Clovis California USA,field (F4),NA,NA,decimal,36.825278,-119.703056,Aedes aegypti,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Winokur et al. 2020. Impact of temperature on the extrinsic incubation period of Zika virus in Aedes aegypti. PLoS Negl Trop Dis 14(3): e0008047.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,An Asian-lineage outbreak strain of ZIKV from Puerto Rico was used. The virus was first isolated from human serum during the outbreak in 2015 (PR15 PRVABC59) passaged four times in Vero cells and sequenced. Mosquitoes were exposed to a dosage of 5.3-5.7 log10 PFU/ml. interactor1number is the number with disseminated infection from n=20 tested,TRUE,01/01/2020
NA,NA,dissemination rate,percentage of mosquito leg/wing samples that were vRNA-positive (ZIKV) out of the total tested,90,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,15,days,NA,NA,NA,NA,NA,Clovis California USA,field (F4),NA,NA,decimal,36.825278,-119.703056,Aedes aegypti,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Winokur et al. 2020. Impact of temperature on the extrinsic incubation period of Zika virus in Aedes aegypti. PLoS Negl Trop Dis 14(3): e0008047.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,An Asian-lineage outbreak strain of ZIKV from Puerto Rico was used. The virus was first isolated from human serum during the outbreak in 2015 (PR15 PRVABC59) passaged four times in Vero cells and sequenced. Mosquitoes were exposed to a dosage of 5.3-5.7 log10 PFU/ml. interactor1number is the number with disseminated infection from n=20 tested,TRUE,01/01/2020
NA,NA,dissemination rate,percentage of mosquito leg/wing samples that were vRNA-positive (ZIKV) out of the total tested,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,20,days,NA,NA,NA,NA,NA,Clovis California USA,field (F4),NA,NA,decimal,36.825278,-119.703056,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Winokur et al. 2020. Impact of temperature on the extrinsic incubation period of Zika virus in Aedes aegypti. PLoS Negl Trop Dis 14(3): e0008047.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,An Asian-lineage outbreak strain of ZIKV from Puerto Rico was used. The virus was first isolated from human serum during the outbreak in 2015 (PR15 PRVABC59) passaged four times in Vero cells and sequenced. Mosquitoes were exposed to a dosage of 5.3-5.7 log10 PFU/ml. interactor1number is the number with disseminated infection from n=20 tested,TRUE,01/01/2020
NA,NA,dissemination rate,percentage of mosquito leg/wing samples that were vRNA-positive (ZIKV) out of the total tested,90,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,25,days,NA,NA,NA,NA,NA,Clovis California USA,field (F4),NA,NA,decimal,36.825278,-119.703056,Aedes aegypti,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Winokur et al. 2020. Impact of temperature on the extrinsic incubation period of Zika virus in Aedes aegypti. PLoS Negl Trop Dis 14(3): e0008047.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,An Asian-lineage outbreak strain of ZIKV from Puerto Rico was used. The virus was first isolated from human serum during the outbreak in 2015 (PR15 PRVABC59) passaged four times in Vero cells and sequenced. Mosquitoes were exposed to a dosage of 5.3-5.7 log10 PFU/ml. interactor1number is the number with disseminated infection from n=20 tested,TRUE,01/01/2020
NA,NA,dissemination rate,percentage of mosquito leg/wing samples that were vRNA-positive (ZIKV) out of the total tested,75,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,5,days,NA,NA,NA,NA,NA,Clovis California USA,field (F4),NA,NA,decimal,36.825278,-119.703056,Aedes aegypti,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Winokur et al. 2020. Impact of temperature on the extrinsic incubation period of Zika virus in Aedes aegypti. PLoS Negl Trop Dis 14(3): e0008047.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,An Asian-lineage outbreak strain of ZIKV from Puerto Rico was used. The virus was first isolated from human serum during the outbreak in 2015 (PR15 PRVABC59) passaged four times in Vero cells and sequenced. Mosquitoes were exposed to a dosage of 5.3-5.7 log10 PFU/ml. interactor1number is the number with disseminated infection from n=20 tested,TRUE,01/01/2020
NA,NA,dissemination rate,percentage of mosquito leg/wing samples that were vRNA-positive (ZIKV) out of the total tested,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,10,days,NA,NA,NA,NA,NA,Clovis California USA,field (F4),NA,NA,decimal,36.825278,-119.703056,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Winokur et al. 2020. Impact of temperature on the extrinsic incubation period of Zika virus in Aedes aegypti. PLoS Negl Trop Dis 14(3): e0008047.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,An Asian-lineage outbreak strain of ZIKV from Puerto Rico was used. The virus was first isolated from human serum during the outbreak in 2015 (PR15 PRVABC59) passaged four times in Vero cells and sequenced. Mosquitoes were exposed to a dosage of 5.3-5.7 log10 PFU/ml. interactor1number is the number with disseminated infection from n=20 tested,TRUE,01/01/2020
NA,NA,dissemination rate,percentage of mosquito leg/wing samples that were vRNA-positive (ZIKV) out of the total tested,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,15,days,NA,NA,NA,NA,NA,Clovis California USA,field (F4),NA,NA,decimal,36.825278,-119.703056,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Winokur et al. 2020. Impact of temperature on the extrinsic incubation period of Zika virus in Aedes aegypti. PLoS Negl Trop Dis 14(3): e0008047.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,An Asian-lineage outbreak strain of ZIKV from Puerto Rico was used. The virus was first isolated from human serum during the outbreak in 2015 (PR15 PRVABC59) passaged four times in Vero cells and sequenced. Mosquitoes were exposed to a dosage of 5.3-5.7 log10 PFU/ml. interactor1number is the number with disseminated infection from n=20 tested,TRUE,01/01/2020
NA,NA,dissemination rate,percentage of mosquito leg/wing samples that were vRNA-positive (ZIKV) out of the total tested,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,20,days,NA,NA,NA,NA,NA,Clovis California USA,field (F4),NA,NA,decimal,36.825278,-119.703056,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Winokur et al. 2020. Impact of temperature on the extrinsic incubation period of Zika virus in Aedes aegypti. PLoS Negl Trop Dis 14(3): e0008047.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,An Asian-lineage outbreak strain of ZIKV from Puerto Rico was used. The virus was first isolated from human serum during the outbreak in 2015 (PR15 PRVABC59) passaged four times in Vero cells and sequenced. Mosquitoes were exposed to a dosage of 5.3-5.7 log10 PFU/ml. interactor1number is the number with disseminated infection from n=20 tested,TRUE,01/01/2020
NA,NA,dissemination rate,percentage of mosquito leg/wing samples that were vRNA-positive (ZIKV) out of the total tested,75,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,Clovis California USA,field (F4),NA,NA,decimal,36.825278,-119.703056,Aedes aegypti,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Winokur et al. 2020. Impact of temperature on the extrinsic incubation period of Zika virus in Aedes aegypti. PLoS Negl Trop Dis 14(3): e0008047.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,An Asian-lineage outbreak strain of ZIKV from Puerto Rico was used. The virus was first isolated from human serum during the outbreak in 2015 (PR15 PRVABC59) passaged four times in Vero cells and sequenced. Mosquitoes were exposed to a dosage of 5.3-5.7 log10 PFU/ml. interactor1number is the number with disseminated infection from n=20 tested,TRUE,01/01/2020
NA,NA,dissemination rate,percentage of mosquito leg/wing samples that were vRNA-positive (ZIKV) out of the total tested,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,6,days,NA,NA,NA,NA,NA,Clovis California USA,field (F4),NA,NA,decimal,36.825278,-119.703056,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Winokur et al. 2020. Impact of temperature on the extrinsic incubation period of Zika virus in Aedes aegypti. PLoS Negl Trop Dis 14(3): e0008047.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,An Asian-lineage outbreak strain of ZIKV from Puerto Rico was used. The virus was first isolated from human serum during the outbreak in 2015 (PR15 PRVABC59) passaged four times in Vero cells and sequenced. Mosquitoes were exposed to a dosage of 5.3-5.7 log10 PFU/ml. interactor1number is the number with disseminated infection from n=20 tested,TRUE,01/01/2020
NA,NA,dissemination rate,percentage of mosquito leg/wing samples that were vRNA-positive (ZIKV) out of the total tested,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,9,days,NA,NA,NA,NA,NA,Clovis California USA,field (F4),NA,NA,decimal,36.825278,-119.703056,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Winokur et al. 2020. Impact of temperature on the extrinsic incubation period of Zika virus in Aedes aegypti. PLoS Negl Trop Dis 14(3): e0008047.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,An Asian-lineage outbreak strain of ZIKV from Puerto Rico was used. The virus was first isolated from human serum during the outbreak in 2015 (PR15 PRVABC59) passaged four times in Vero cells and sequenced. Mosquitoes were exposed to a dosage of 5.3-5.7 log10 PFU/ml. interactor1number is the number with disseminated infection from n=20 tested,TRUE,01/01/2020
NA,NA,dissemination rate,percentage of mosquito leg/wing samples that were vRNA-positive (ZIKV) out of the total tested,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,12,days,NA,NA,NA,NA,NA,Clovis California USA,field (F4),NA,NA,decimal,36.825278,-119.703056,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Winokur et al. 2020. Impact of temperature on the extrinsic incubation period of Zika virus in Aedes aegypti. PLoS Negl Trop Dis 14(3): e0008047.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,An Asian-lineage outbreak strain of ZIKV from Puerto Rico was used. The virus was first isolated from human serum during the outbreak in 2015 (PR15 PRVABC59) passaged four times in Vero cells and sequenced. Mosquitoes were exposed to a dosage of 5.3-5.7 log10 PFU/ml. interactor1number is the number with disseminated infection from n=20 tested,TRUE,01/01/2020
NA,NA,dissemination rate,percentage of mosquito leg/wing samples that were vRNA-positive (ZIKV) out of the total tested,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,21,days,NA,NA,NA,NA,NA,Clovis California USA,field (F4),NA,NA,decimal,36.825278,-119.703056,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Winokur et al. 2020. Impact of temperature on the extrinsic incubation period of Zika virus in Aedes aegypti. PLoS Negl Trop Dis 14(3): e0008047.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,An Asian-lineage outbreak strain of ZIKV from Puerto Rico was used. The virus was first isolated from human serum during the outbreak in 2015 (PR15 PRVABC59) passaged four times in Vero cells and sequenced. Mosquitoes were exposed to a dosage of 5.3-5.7 log10 PFU/ml. interactor1number is the number with disseminated infection from n=20 tested,TRUE,01/01/2020
NA,NA,transmission rate,percentage of mosquito salivasamples that were vRNA-positive (ZIKV) out of the total tested,10,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,21,days,NA,NA,NA,NA,NA,Clovis California USA,field (F4),NA,NA,decimal,36.825278,-119.703056,Aedes aegypti,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Winokur et al. 2020. Impact of temperature on the extrinsic incubation period of Zika virus in Aedes aegypti. PLoS Negl Trop Dis 14(3): e0008047.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,An Asian-lineage outbreak strain of ZIKV from Puerto Rico was used. The virus was first isolated from human serum during the outbreak in 2015 (PR15 PRVABC59) passaged four times in Vero cells and sequenced. Mosquitoes were exposed to a dosage of 5.3-5.7 log10 PFU/ml. interactor1number is the number with positive saliva from n=20 tested,TRUE,01/01/2020
NA,NA,transmission rate,percentage of mosquito salivasamples that were vRNA-positive (ZIKV) out of the total tested,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,25,days,NA,NA,NA,NA,NA,Clovis California USA,field (F4),NA,NA,decimal,36.825278,-119.703056,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Winokur et al. 2020. Impact of temperature on the extrinsic incubation period of Zika virus in Aedes aegypti. PLoS Negl Trop Dis 14(3): e0008047.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,An Asian-lineage outbreak strain of ZIKV from Puerto Rico was used. The virus was first isolated from human serum during the outbreak in 2015 (PR15 PRVABC59) passaged four times in Vero cells and sequenced. Mosquitoes were exposed to a dosage of 5.3-5.7 log10 PFU/ml. interactor1number is the number with positive saliva from n=20 tested,TRUE,01/01/2020
NA,NA,transmission rate,percentage of mosquito salivasamples that were vRNA-positive (ZIKV) out of the total tested,15,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,31,days,NA,NA,NA,NA,NA,Clovis California USA,field (F4),NA,NA,decimal,36.825278,-119.703056,Aedes aegypti,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Winokur et al. 2020. Impact of temperature on the extrinsic incubation period of Zika virus in Aedes aegypti. PLoS Negl Trop Dis 14(3): e0008047.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,An Asian-lineage outbreak strain of ZIKV from Puerto Rico was used. The virus was first isolated from human serum during the outbreak in 2015 (PR15 PRVABC59) passaged four times in Vero cells and sequenced. Mosquitoes were exposed to a dosage of 5.3-5.7 log10 PFU/ml. interactor1number is the number with positive saliva from n=20 tested,TRUE,01/01/2020
NA,NA,transmission rate,percentage of mosquito salivasamples that were vRNA-positive (ZIKV) out of the total tested,5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,10,days,NA,NA,NA,NA,NA,Clovis California USA,field (F4),NA,NA,decimal,36.825278,-119.703056,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Winokur et al. 2020. Impact of temperature on the extrinsic incubation period of Zika virus in Aedes aegypti. PLoS Negl Trop Dis 14(3): e0008047.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,An Asian-lineage outbreak strain of ZIKV from Puerto Rico was used. The virus was first isolated from human serum during the outbreak in 2015 (PR15 PRVABC59) passaged four times in Vero cells and sequenced. Mosquitoes were exposed to a dosage of 5.3-5.7 log10 PFU/ml. interactor1number is the number with positive saliva from n=20 tested,TRUE,01/01/2020
NA,NA,transmission rate,percentage of mosquito salivasamples that were vRNA-positive (ZIKV) out of the total tested,30,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,15,days,NA,NA,NA,NA,NA,Clovis California USA,field (F4),NA,NA,decimal,36.825278,-119.703056,Aedes aegypti,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Winokur et al. 2020. Impact of temperature on the extrinsic incubation period of Zika virus in Aedes aegypti. PLoS Negl Trop Dis 14(3): e0008047.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,An Asian-lineage outbreak strain of ZIKV from Puerto Rico was used. The virus was first isolated from human serum during the outbreak in 2015 (PR15 PRVABC59) passaged four times in Vero cells and sequenced. Mosquitoes were exposed to a dosage of 5.3-5.7 log10 PFU/ml. interactor1number is the number with positive saliva from n=20 tested,TRUE,01/01/2020
NA,NA,transmission rate,percentage of mosquito salivasamples that were vRNA-positive (ZIKV) out of the total tested,35,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,20,days,NA,NA,NA,NA,NA,Clovis California USA,field (F4),NA,NA,decimal,36.825278,-119.703056,Aedes aegypti,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Winokur et al. 2020. Impact of temperature on the extrinsic incubation period of Zika virus in Aedes aegypti. PLoS Negl Trop Dis 14(3): e0008047.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,An Asian-lineage outbreak strain of ZIKV from Puerto Rico was used. The virus was first isolated from human serum during the outbreak in 2015 (PR15 PRVABC59) passaged four times in Vero cells and sequenced. Mosquitoes were exposed to a dosage of 5.3-5.7 log10 PFU/ml. interactor1number is the number with positive saliva from n=20 tested,TRUE,01/01/2020
NA,NA,transmission rate,percentage of mosquito salivasamples that were vRNA-positive (ZIKV) out of the total tested,60,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,25,days,NA,NA,NA,NA,NA,Clovis California USA,field (F4),NA,NA,decimal,36.825278,-119.703056,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Winokur et al. 2020. Impact of temperature on the extrinsic incubation period of Zika virus in Aedes aegypti. PLoS Negl Trop Dis 14(3): e0008047.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,An Asian-lineage outbreak strain of ZIKV from Puerto Rico was used. The virus was first isolated from human serum during the outbreak in 2015 (PR15 PRVABC59) passaged four times in Vero cells and sequenced. Mosquitoes were exposed to a dosage of 5.3-5.7 log10 PFU/ml. interactor1number is the number with positive saliva from n=20 tested,TRUE,01/01/2020
NA,NA,transmission rate,percentage of mosquito salivasamples that were vRNA-positive (ZIKV) out of the total tested,30,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,5,days,NA,NA,NA,NA,NA,Clovis California USA,field (F4),NA,NA,decimal,36.825278,-119.703056,Aedes aegypti,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Winokur et al. 2020. Impact of temperature on the extrinsic incubation period of Zika virus in Aedes aegypti. PLoS Negl Trop Dis 14(3): e0008047.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,An Asian-lineage outbreak strain of ZIKV from Puerto Rico was used. The virus was first isolated from human serum during the outbreak in 2015 (PR15 PRVABC59) passaged four times in Vero cells and sequenced. Mosquitoes were exposed to a dosage of 5.3-5.7 log10 PFU/ml. interactor1number is the number with positive saliva from n=20 tested,TRUE,01/01/2020
NA,NA,transmission rate,percentage of mosquito salivasamples that were vRNA-positive (ZIKV) out of the total tested,50,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,10,days,NA,NA,NA,NA,NA,Clovis California USA,field (F4),NA,NA,decimal,36.825278,-119.703056,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Winokur et al. 2020. Impact of temperature on the extrinsic incubation period of Zika virus in Aedes aegypti. PLoS Negl Trop Dis 14(3): e0008047.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,An Asian-lineage outbreak strain of ZIKV from Puerto Rico was used. The virus was first isolated from human serum during the outbreak in 2015 (PR15 PRVABC59) passaged four times in Vero cells and sequenced. Mosquitoes were exposed to a dosage of 5.3-5.7 log10 PFU/ml. interactor1number is the number with positive saliva from n=20 tested,TRUE,01/01/2020
NA,NA,transmission rate,percentage of mosquito salivasamples that were vRNA-positive (ZIKV) out of the total tested,95,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,15,days,NA,NA,NA,NA,NA,Clovis California USA,field (F4),NA,NA,decimal,36.825278,-119.703056,Aedes aegypti,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Winokur et al. 2020. Impact of temperature on the extrinsic incubation period of Zika virus in Aedes aegypti. PLoS Negl Trop Dis 14(3): e0008047.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,An Asian-lineage outbreak strain of ZIKV from Puerto Rico was used. The virus was first isolated from human serum during the outbreak in 2015 (PR15 PRVABC59) passaged four times in Vero cells and sequenced. Mosquitoes were exposed to a dosage of 5.3-5.7 log10 PFU/ml. interactor1number is the number with positive saliva from n=20 tested,TRUE,01/01/2020
NA,NA,transmission rate,percentage of mosquito salivasamples that were vRNA-positive (ZIKV) out of the total tested,90,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,20,days,NA,NA,NA,NA,NA,Clovis California USA,field (F4),NA,NA,decimal,36.825278,-119.703056,Aedes aegypti,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Winokur et al. 2020. Impact of temperature on the extrinsic incubation period of Zika virus in Aedes aegypti. PLoS Negl Trop Dis 14(3): e0008047.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,An Asian-lineage outbreak strain of ZIKV from Puerto Rico was used. The virus was first isolated from human serum during the outbreak in 2015 (PR15 PRVABC59) passaged four times in Vero cells and sequenced. Mosquitoes were exposed to a dosage of 5.3-5.7 log10 PFU/ml. interactor1number is the number with positive saliva from n=20 tested,TRUE,01/01/2020
NA,NA,transmission rate,percentage of mosquito salivasamples that were vRNA-positive (ZIKV) out of the total tested,30,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,3,days,NA,NA,NA,NA,NA,Clovis California USA,field (F4),NA,NA,decimal,36.825278,-119.703056,Aedes aegypti,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Winokur et al. 2020. Impact of temperature on the extrinsic incubation period of Zika virus in Aedes aegypti. PLoS Negl Trop Dis 14(3): e0008047.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,An Asian-lineage outbreak strain of ZIKV from Puerto Rico was used. The virus was first isolated from human serum during the outbreak in 2015 (PR15 PRVABC59) passaged four times in Vero cells and sequenced. Mosquitoes were exposed to a dosage of 5.3-5.7 log10 PFU/ml. interactor1number is the number with positive saliva from n=20 tested,TRUE,01/01/2020
NA,NA,transmission rate,percentage of mosquito salivasamples that were vRNA-positive (ZIKV) out of the total tested,60,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,6,days,NA,NA,NA,NA,NA,Clovis California USA,field (F4),NA,NA,decimal,36.825278,-119.703056,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Winokur et al. 2020. Impact of temperature on the extrinsic incubation period of Zika virus in Aedes aegypti. PLoS Negl Trop Dis 14(3): e0008047.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,An Asian-lineage outbreak strain of ZIKV from Puerto Rico was used. The virus was first isolated from human serum during the outbreak in 2015 (PR15 PRVABC59) passaged four times in Vero cells and sequenced. Mosquitoes were exposed to a dosage of 5.3-5.7 log10 PFU/ml. interactor1number is the number with positive saliva from n=20 tested,TRUE,01/01/2020
NA,NA,transmission rate,percentage of mosquito salivasamples that were vRNA-positive (ZIKV) out of the total tested,90,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,9,days,NA,NA,NA,NA,NA,Clovis California USA,field (F4),NA,NA,decimal,36.825278,-119.703056,Aedes aegypti,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Winokur et al. 2020. Impact of temperature on the extrinsic incubation period of Zika virus in Aedes aegypti. PLoS Negl Trop Dis 14(3): e0008047.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,An Asian-lineage outbreak strain of ZIKV from Puerto Rico was used. The virus was first isolated from human serum during the outbreak in 2015 (PR15 PRVABC59) passaged four times in Vero cells and sequenced. Mosquitoes were exposed to a dosage of 5.3-5.7 log10 PFU/ml. interactor1number is the number with positive saliva from n=20 tested,TRUE,01/01/2020
NA,NA,transmission rate,percentage of mosquito salivasamples that were vRNA-positive (ZIKV) out of the total tested,95,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,12,days,NA,NA,NA,NA,NA,Clovis California USA,field (F4),NA,NA,decimal,36.825278,-119.703056,Aedes aegypti,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Winokur et al. 2020. Impact of temperature on the extrinsic incubation period of Zika virus in Aedes aegypti. PLoS Negl Trop Dis 14(3): e0008047.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,An Asian-lineage outbreak strain of ZIKV from Puerto Rico was used. The virus was first isolated from human serum during the outbreak in 2015 (PR15 PRVABC59) passaged four times in Vero cells and sequenced. Mosquitoes were exposed to a dosage of 5.3-5.7 log10 PFU/ml. interactor1number is the number with positive saliva from n=20 tested,TRUE,01/01/2020
NA,NA,transmission rate,percentage of mosquito salivasamples that were vRNA-positive (ZIKV) out of the total tested,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,dpi,days post infection,21,days,NA,NA,NA,NA,NA,Clovis California USA,field (F4),NA,NA,decimal,36.825278,-119.703056,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Winokur et al. 2020. Impact of temperature on the extrinsic incubation period of Zika virus in Aedes aegypti. PLoS Negl Trop Dis 14(3): e0008047.,NA,NA,NA,Paul Huxley,phuxly@gmail.com,An Asian-lineage outbreak strain of ZIKV from Puerto Rico was used. The virus was first isolated from human serum during the outbreak in 2015 (PR15 PRVABC59) passaged four times in Vero cells and sequenced. Mosquitoes were exposed to a dosage of 5.3-5.7 log10 PFU/ml. interactor1number is the number with positive saliva from n=20 tested,TRUE,01/01/2020
NA,XIO001,viral presence (head),number of heads yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,3,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO001,viral presence (head),number of heads yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,4,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO001,viral presence (head),number of heads yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,5,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO001,viral presence (head),number of heads yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,7,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO001,viral presence (head),number of heads yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,10,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO001,viral presence (head),number of heads yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,14,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO001,viral presence (head),number of heads yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,20,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO001,viral presence (head),number of heads yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,25,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO001,viral presence (head),number of heads yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,3,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,21,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO001,viral presence (head),number of heads yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,4,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,21,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO001,viral presence (head),number of heads yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,5,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,21,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO001,viral presence (head),number of heads yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,7,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,21,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO001,viral presence (head),number of heads yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,1,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,10,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,21,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO001,viral presence (head),number of heads yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,2,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,14,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,21,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO001,viral presence (head),number of heads yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,3,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,20,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,21,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO001,viral presence (head),number of heads yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,9,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,25,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,32,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,21,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO001,viral presence (head),number of heads yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,3,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,26,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO001,viral presence (head),number of heads yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,4,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,26,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO001,viral presence (head),number of heads yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,5,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,26,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO001,viral presence (head),number of heads yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,2,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,7,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,26,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO001,viral presence (head),number of heads yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,3,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,10,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,26,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO001,viral presence (head),number of heads yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,10,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,14,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,26,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO001,viral presence (head),number of heads yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,3,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,31,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO001,viral presence (head),number of heads yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,1,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,4,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,31,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO001,viral presence (head),number of heads yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,1,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,5,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,31,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO001,viral presence (head),number of heads yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,3,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,7,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,31,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO001,viral presence (head),number of heads yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,3,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,10,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,31,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO001,viral presence (head),number of heads yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,12,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,14,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,31,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO001,viral presence (head),number of heads yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,3,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,36,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO001,viral presence (head),number of heads yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,1,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,4,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,36,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO001,viral presence (head),number of heads yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,5,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,36,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO001,viral presence (head),number of heads yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,2,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,7,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,36,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO001,viral presence (head),number of heads yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,2,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,10,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,36,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO001,viral presence (head),number of heads yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,7,number of positive heads,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,14,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,36,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO002,viral presence (salivary glands),number of salivary glands yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive salivary glands,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,3,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO002,viral presence (salivary glands),number of salivary glands yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive salivary glands,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,4,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO002,viral presence (salivary glands),number of salivary glands yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive salivary glands,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,5,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO002,viral presence (salivary glands),number of salivary glands yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive salivary glands,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,7,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO002,viral presence (salivary glands),number of salivary glands yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive salivary glands,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,10,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO002,viral presence (salivary glands),number of salivary glands yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive salivary glands,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,14,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO002,viral presence (salivary glands),number of salivary glands yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive salivary glands,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,20,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO002,viral presence (salivary glands),number of salivary glands yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive salivary glands,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,25,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO002,viral presence (salivary glands),number of salivary glands yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive salivary glands,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,3,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,21,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO002,viral presence (salivary glands),number of salivary glands yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive salivary glands,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,4,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,21,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO002,viral presence (salivary glands),number of salivary glands yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive salivary glands,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,5,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,21,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO002,viral presence (salivary glands),number of salivary glands yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive salivary glands,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,7,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,21,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO002,viral presence (salivary glands),number of salivary glands yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,1,number of positive salivary glands,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,10,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,21,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO002,viral presence (salivary glands),number of salivary glands yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,3,number of positive salivary glands,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,14,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,21,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO002,viral presence (salivary glands),number of salivary glands yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,4,number of positive salivary glands,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,20,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,21,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO002,viral presence (salivary glands),number of salivary glands yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,10,number of positive salivary glands,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,25,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,32,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,21,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO002,viral presence (salivary glands),number of salivary glands yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive salivary glands,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,3,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,26,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO002,viral presence (salivary glands),number of salivary glands yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive salivary glands,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,4,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,26,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO002,viral presence (salivary glands),number of salivary glands yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive salivary glands,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,5,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,26,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO002,viral presence (salivary glands),number of salivary glands yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,2,number of positive salivary glands,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,7,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,26,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO002,viral presence (salivary glands),number of salivary glands yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,3,number of positive salivary glands,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,10,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,26,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO002,viral presence (salivary glands),number of salivary glands yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,10,number of positive salivary glands,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,14,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,26,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO002,viral presence (salivary glands),number of salivary glands yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive salivary glands,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,3,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,31,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO002,viral presence (salivary glands),number of salivary glands yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,1,number of positive salivary glands,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,4,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,31,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO002,viral presence (salivary glands),number of salivary glands yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,1,number of positive salivary glands,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,5,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,31,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO002,viral presence (salivary glands),number of salivary glands yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,3,number of positive salivary glands,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,7,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,31,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO002,viral presence (salivary glands),number of salivary glands yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,3,number of positive salivary glands,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,10,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,31,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO002,viral presence (salivary glands),number of salivary glands yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,12,number of positive salivary glands,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,14,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,31,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO002,viral presence (salivary glands),number of salivary glands yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive salivary glands,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,3,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,36,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO002,viral presence (salivary glands),number of salivary glands yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,1,number of positive salivary glands,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,4,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,36,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO002,viral presence (salivary glands),number of salivary glands yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,1,number of positive salivary glands,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,5,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,36,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO002,viral presence (salivary glands),number of salivary glands yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,3,number of positive salivary glands,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,7,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,36,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO002,viral presence (salivary glands),number of salivary glands yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,2,number of positive salivary glands,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,10,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,36,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO002,viral presence (salivary glands),number of salivary glands yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,8,number of positive salivary glands,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,14,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,36,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO003,viral presence (thorax-abdomens),number of thorax-abdomens yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,3,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO003,viral presence (thorax-abdomens),number of thorax-abdomens yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,4,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO003,viral presence (thorax-abdomens),number of thorax-abdomens yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,5,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO003,viral presence (thorax-abdomens),number of thorax-abdomens yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,7,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO003,viral presence (thorax-abdomens),number of thorax-abdomens yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,10,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO003,viral presence (thorax-abdomens),number of thorax-abdomens yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,14,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO003,viral presence (thorax-abdomens),number of thorax-abdomens yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,20,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO003,viral presence (thorax-abdomens),number of thorax-abdomens yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,2,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,25,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,18,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO003,viral presence (thorax-abdomens),number of thorax-abdomens yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,3,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,21,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO003,viral presence (thorax-abdomens),number of thorax-abdomens yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,4,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,21,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO003,viral presence (thorax-abdomens),number of thorax-abdomens yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,5,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,21,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO003,viral presence (thorax-abdomens),number of thorax-abdomens yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,2,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,7,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,21,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO003,viral presence (thorax-abdomens),number of thorax-abdomens yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,3,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,10,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,21,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO003,viral presence (thorax-abdomens),number of thorax-abdomens yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,4,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,14,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,21,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO003,viral presence (thorax-abdomens),number of thorax-abdomens yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,6,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,20,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,21,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO003,viral presence (thorax-abdomens),number of thorax-abdomens yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,15,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,25,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,32,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,21,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO003,viral presence (thorax-abdomens),number of thorax-abdomens yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,3,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,26,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO003,viral presence (thorax-abdomens),number of thorax-abdomens yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,4,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,26,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO003,viral presence (thorax-abdomens),number of thorax-abdomens yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,5,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,5,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,26,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO003,viral presence (thorax-abdomens),number of thorax-abdomens yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,3,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,7,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,26,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO003,viral presence (thorax-abdomens),number of thorax-abdomens yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,3,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,10,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,26,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO003,viral presence (thorax-abdomens),number of thorax-abdomens yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,13,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,14,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,26,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO003,viral presence (thorax-abdomens),number of thorax-abdomens yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,3,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,31,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO003,viral presence (thorax-abdomens),number of thorax-abdomens yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,3,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,4,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,31,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO003,viral presence (thorax-abdomens),number of thorax-abdomens yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,4,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,5,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,31,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO003,viral presence (thorax-abdomens),number of thorax-abdomens yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,3,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,7,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,31,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO003,viral presence (thorax-abdomens),number of thorax-abdomens yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,5,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,10,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,31,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO003,viral presence (thorax-abdomens),number of thorax-abdomens yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,14,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,14,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,31,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO003,viral presence (thorax-abdomens),number of thorax-abdomens yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,0,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,3,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,36,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO003,viral presence (thorax-abdomens),number of thorax-abdomens yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,3,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,4,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,36,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO003,viral presence (thorax-abdomens),number of thorax-abdomens yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,2,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,5,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,36,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO003,viral presence (thorax-abdomens),number of thorax-abdomens yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,3,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,7,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,36,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO003,viral presence (thorax-abdomens),number of thorax-abdomens yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,2,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,10,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,36,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,XIO003,viral presence (thorax-abdomens),number of thorax-abdomens yielding DENV-2 virus/no. examined (interactor1number) as a function of incubation period and temperature,8,number of positive thorax-abdomens,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,incubation period,duration from viremic bloodmeal,14,days,NA,NA,NA,NA,NA,Shanghai China,colony,NA,0,decimal,31.228611,121.474722,Aedes albopictus,NA,NA,NA,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,36,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,supplementary material,Xiao et al. 2014. The effect of temperature on the extrinsic incubation period and infection rate of dengue virus serotype 2 infection in Aedes albopictus. Arch Virol 159.,10.1007/s00705-014-2051-1,NA,NA,Paul Huxley,phuxly@gmail.com,bloodmeal virus titer was 1 x 10^7.9,TRUE,01/01/2014
NA,PEDM1,development time,mean duration of life stage,25.2,days,2,2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,23/05/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (hatch to pupa),male,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined number of individuals across replicates (40 multiplied by 5) divided by two assuming a 1:1 male to female ratio,TRUE,01/01/2018
NA,PEDM1,development time,mean duration of life stage,20.8,days,2.1,2.1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,26/06/2015,5,decimal,52.3116593,9.805051758,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (hatch to pupa),male,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined number of individuals across replicates (40 multiplied by 5) divided by two assuming a 1:1 male to female ratio,TRUE,01/01/2018
NA,PEDM1,development time,mean duration of life stage,11.8,days,0.9,0.9,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,21/07/2015,5,decimal,52.3116593,9.805051758,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (hatch to pupa),male,19,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined number of individuals across replicates (40 multiplied by 5) divided by two assuming a 1:1 male to female ratio,TRUE,01/01/2018
NA,PEDM1,development time,mean duration of life stage,13,days,1.2,1.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,23/05/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (hatch to pupa),male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined number of individuals across replicates (40 multiplied by 5) divided by two assuming a 1:1 male to female ratio,TRUE,01/01/2018
NA,PEDM1,development time,mean duration of life stage,10.5,days,0.9,0.9,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Senkenberg BiK F mesocosm hall,field,26/06/2015,5,decimal,50.11626835,8.649652285,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (hatch to pupa),male,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined number of individuals across replicates (40 multiplied by 5) divided by two assuming a 1:1 male to female ratio,TRUE,01/01/2018
NA,PEDM1,development time,mean duration of life stage,9.7,days,1.1,1.1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,23/05/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (hatch to pupa),male,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined number of individuals across replicates (40 multiplied by 5) divided by two assuming a 1:1 male to female ratio,TRUE,01/01/2018
NA,PEDM1,development time,mean duration of life stage,8.4,days,0.6,0.6,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Senkenberg BiK F mesocosm hall,field,23/05/2015,5,decimal,50.11626835,8.649652285,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (hatch to pupa),male,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined number of individuals across replicates (40 multiplied by 5) divided by two assuming a 1:1 male to female ratio,TRUE,01/01/2018
NA,PEDM1,development time,mean duration of life stage,8.2,days,1,1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,26/06/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (hatch to pupa),male,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined number of individuals across replicates (40 multiplied by 5) divided by two assuming a 1:1 male to female ratio,TRUE,01/01/2018
NA,PEDM1,development time,mean duration of life stage,8,days,0.8,0.8,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,04/07/2016,5,decimal,52.3116593,9.805051758,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (hatch to pupa),male,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined number of individuals across replicates (40 multiplied by 5) divided by two assuming a 1:1 male to female ratio,TRUE,01/01/2018
NA,PEDM1,development time,mean duration of life stage,8,days,0.8,0.8,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,26/06/2015,5,decimal,52.3116593,9.805051758,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (hatch to pupa),male,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined number of individuals across replicates (40 multiplied by 5) divided by two assuming a 1:1 male to female ratio,TRUE,01/01/2018
NA,PEDM1,development time,mean duration of life stage,11,days,1.4,1.4,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,15/06/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (hatch to pupa),male,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined number of individuals across replicates (40 multiplied by 5) divided by two assuming a 1:1 male to female ratio,TRUE,01/01/2018
NA,PEDM1,development time,mean duration of life stage,57.5,days,2.5,2.5,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,07/08/2016,5,decimal,52.3116593,9.805051758,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (L1 to adult),male,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined number of individuals across replicates (40 multiplied by 5) divided by two assuming a 1:1 male to female ratio,TRUE,01/01/2018
NA,PEDM1,development time,mean duration of life stage,46,days,2.6,2.6,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,23/05/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (L1 to adult),male,12,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined number of individuals across replicates (40 multiplied by 5) divided by two assuming a 1:1 male to female ratio,TRUE,01/01/2018
NA,PEDM1,development time,mean duration of life stage,30.7,days,2.1,2.1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,23/05/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (L1 to adult),male,14,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined number of individuals across replicates (40 multiplied by 5) divided by two assuming a 1:1 male to female ratio,TRUE,01/01/2018
NA,PEDM1,development time,mean duration of life stage,31.1,days,2.1,2.1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,23/05/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (L1 to adult),male,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined number of individuals across replicates (40 multiplied by 5) divided by two assuming a 1:1 male to female ratio,TRUE,01/01/2018
NA,PEDM1,development time,mean duration of life stage,25.4,days,2.1,2.1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,26/06/2015,5,decimal,52.3116593,9.805051758,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (L1 to adult),male,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined number of individuals across replicates (40 multiplied by 5) divided by two assuming a 1:1 male to female ratio,TRUE,01/01/2018
NA,PEDM1,development time,mean duration of life stage,15,days,0.9,0.9,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,21/07/2015,5,decimal,52.3116593,9.805051758,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (L1 to adult),male,19,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined number of individuals across replicates (40 multiplied by 5) divided by two assuming a 1:1 male to female ratio,TRUE,01/01/2018
NA,PEDM1,development time,mean duration of life stage,16.3,days,1.3,1.3,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,23/05/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (L1 to adult),male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined number of individuals across replicates (40 multiplied by 5) divided by two assuming a 1:1 male to female ratio,TRUE,01/01/2018
NA,PEDM1,development time,mean duration of life stage,13.3,days,1.2,1.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Senkenberg BiK F mesocosm hall,field,26/06/2015,5,decimal,50.11626835,8.649652285,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (L1 to adult),male,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined number of individuals across replicates (40 multiplied by 5) divided by two assuming a 1:1 male to female ratio,TRUE,01/01/2018
NA,PHX11,fecundity rate,predicted eggs per unit time,0,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,10.54,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX11,fecundity rate,predicted eggs per unit time,0,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,10.76,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX11,fecundity rate,predicted eggs per unit time,0.35,eggs individual-1 day-1,1.26,1.26,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,15.3,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX11,fecundity rate,predicted eggs per unit time,1.12,eggs individual-1 day-1,2.55,2.55,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16.52,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX11,fecundity rate,predicted eggs per unit time,3.37,eggs individual-1 day-1,4.8,4.8,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,20.05,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX11,fecundity rate,predicted eggs per unit time,3.59,eggs individual-1 day-1,5.31,5.31,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21.79,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX11,fecundity rate,predicted eggs per unit time,6.98,eggs individual-1 day-1,7.81,7.81,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25.64,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX11,fecundity rate,predicted eggs per unit time,7.6,eggs individual-1 day-1,8.11,8.11,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27.64,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX11,fecundity rate,predicted eggs per unit time,9.58,eggs individual-1 day-1,7.8,7.8,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31.33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX11,fecundity rate,predicted eggs per unit time,7.28,eggs individual-1 day-1,8.39,8.39,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31.65,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX11,fecundity rate,predicted eggs per unit time,11.22,eggs individual-1 day-1,13.37,13.37,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32.55,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX11,fecundity rate,predicted eggs per unit time,7.27,eggs individual-1 day-1,8.25,8.25,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33.41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX111,longevity,mean duration of life stage,13.18,days,0.9,0.9,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,10.54,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX111,longevity,mean duration of life stage,10.91,days,0.87,0.87,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,10.76,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX111,longevity,mean duration of life stage,27.71,days,2.44,2.44,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,15.3,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX111,longevity,mean duration of life stage,30.62,days,3.82,3.82,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16.52,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX111,longevity,mean duration of life stage,23.72,days,1.73,1.73,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,20.05,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX111,longevity,mean duration of life stage,26.9,days,4.22,4.22,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21.79,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX111,longevity,mean duration of life stage,32.87,days,3.69,3.69,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25.64,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX111,longevity,mean duration of life stage,36.91,days,3.1,3.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27.64,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX111,longevity,mean duration of life stage,22.77,days,1.58,1.58,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31.33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX111,longevity,mean duration of life stage,29.26,days,1.72,1.72,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31.65,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX111,longevity,mean duration of life stage,22.53,days,1.26,1.26,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32.55,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX111,longevity,mean duration of life stage,20.07,days,1.55,1.55,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33.41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX11111,mortality rate,replicate-level daily rate of mortality during life stage,0.081,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX11111,mortality rate,replicate-level daily rate of mortality during life stage,0.096,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,9.94,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX11111,mortality rate,replicate-level daily rate of mortality during life stage,0.161,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,9.88,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX11111,mortality rate,replicate-level daily rate of mortality during life stage,0.175,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,10.36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX11111,mortality rate,replicate-level daily rate of mortality during life stage,0.208,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,10.43,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX11111,mortality rate,replicate-level daily rate of mortality during life stage,0.223,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,9.94,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX11111,mortality rate,replicate-level daily rate of mortality during life stage,0.47,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,10.36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX11111,mortality rate,replicate-level daily rate of mortality during life stage,0.018,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,14.8,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX11111,mortality rate,replicate-level daily rate of mortality during life stage,0.023,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,14.74,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX11111,mortality rate,replicate-level daily rate of mortality during life stage,0.021,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,19.05,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX11111,mortality rate,replicate-level daily rate of mortality during life stage,0.032,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,19.11,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX11111,mortality rate,replicate-level daily rate of mortality during life stage,0.039,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,18.81,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX11111,mortality rate,replicate-level daily rate of mortality during life stage,0.063,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26.46,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX11111,mortality rate,replicate-level daily rate of mortality during life stage,0.06,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26.76,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX11111,mortality rate,replicate-level daily rate of mortality during life stage,0.069,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26.7,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX11111,mortality rate,replicate-level daily rate of mortality during life stage,0.105,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,30.83,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX11111,mortality rate,replicate-level daily rate of mortality during life stage,0.06,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,31.62,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX11111,mortality rate,replicate-level daily rate of mortality during life stage,0.116,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34.9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX11111,mortality rate,replicate-level daily rate of mortality during life stage,0.102,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36.48,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX11111,mortality rate,replicate-level daily rate of mortality during life stage,0.072,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36.48,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX11111,mortality rate,replicate-level daily rate of mortality during life stage,0.265,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,40.18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX11111,mortality rate,replicate-level daily rate of mortality during life stage,0.285,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,40.55,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX11111,mortality rate,replicate-level daily rate of mortality during life stage,0.319,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,39.94,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
DEN1,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,3.71,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN2,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,3.74,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN3,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,3.92,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN4,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,3.98,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN5,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.08,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN6,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.29,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN7,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.29,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN8,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.64,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN9,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.98,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN10,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,5,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN11,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.91,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN12,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.7,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN13,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.64,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN14,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.77,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN15,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.86,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN16,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,5,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN17,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.59,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN18,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.7,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN19,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.39,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN20,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.03,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN21,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.15,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN22,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.3,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN23,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.11,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN24,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.08,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN25,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.15,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN26,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,5.47,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN27,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,5.61,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN28,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,0,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN29,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,0,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN30,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,0,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN31,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,0,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN32,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,0,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN33,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,0,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN34,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,0,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN35,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,0,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN36,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,0,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN37,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,0,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN38,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,0,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN39,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,0,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN40,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,0,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN41,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.348,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN42,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN43,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.348,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN44,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.667,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN45,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.682,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN46,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.955,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN47,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,5,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN48,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,5.318,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN49,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,5.212,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN50,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,5.182,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN51,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,5.364,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN52,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,5.015,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN53,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.788,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN54,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.742,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN55,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,5,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN56,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,5.258,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN57,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.939,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN58,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.652,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN59,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.455,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN60,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.348,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN61,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.212,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN62,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.197,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN63,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.439,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN64,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.152,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN65,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,3.864,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN66,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.697,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN67,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN68,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.121,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN69,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.818,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN70,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,5.818,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN71,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,6.015,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN72,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,5.864,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN73,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,5.985,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN74,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,6.606,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN75,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,6.485,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN76,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,7.288,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN77,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,7.773,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN78,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,8.303,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN79,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,0,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN80,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,0,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN81,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,0,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN82,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,0,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN83,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,0,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN84,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,0,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN85,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,0,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN86,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,0,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN87,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,0,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN88,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,0,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN89,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,0,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN90,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,0,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN91,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,0,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN92,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,8.621,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN93,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,8.136,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN94,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,7.773,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN95,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,7.742,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN96,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,6.955,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN97,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,7.212,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN98,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,6.561,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN99,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,6.424,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN100,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,6.561,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN101,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,5.788,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN102,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,5.97,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN103,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,6,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN104,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,6.091,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN105,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,5.833,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN106,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,5.652,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN107,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,5.288,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,21,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN108,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,5.621,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,22,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN109,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,5.576,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,23,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN110,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,5.485,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN111,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,5.076,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN112,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.97,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN113,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.576,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN114,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.424,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN115,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.773,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN116,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.864,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN117,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,5.091,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,31,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN118,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.712,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,32,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN119,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.879,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,33,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN120,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.939,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,34,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN121,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.561,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN122,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.333,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,36,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN123,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.333,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,37,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN124,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.015,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,38,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN125,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.212,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,39,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN126,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.545,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN127,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,3.909,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,41,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
DEN128,NA,vector competence,individual-level infection level (head and body) after dissection at 14 days post-infection (DENV-2) and detected by qRT-PCR,4.061,log10 RNA gene copies,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,42,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
NA,NA,infection rate,percentage of mosquitoes that tested positive for DENV-2 in their bodies (number of positive mosquitoes/total number of mosquitoes tested) at 14 days post-infection,47.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
NA,NA,infection rate,percentage of mosquitoes that tested positive for DENV-2 in their bodies (number of positive mosquitoes/total number of mosquitoes tested) at 14 days post-infection,75.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,34,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
NA,NA,infection rate,percentage of mosquitoes that tested positive for DENV-2 in their bodies (number of positive mosquitoes/total number of mosquitoes tested) at 14 days post-infection,90,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,36,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
NA,NA,transmission rate,percentage of mosquitoes that tested positive for DENV-2 in their heads (number of positive mosquitoes/total number of mosquitoes tested) at 14 days post-infection,27.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
NA,NA,transmission rate,percentage of mosquitoes that tested positive for DENV-2 in their heads (number of positive mosquitoes/total number of mosquitoes tested) at 14 days post-infection,57.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
NA,NA,transmission rate,percentage of mosquitoes that tested positive for DENV-2 in their heads (number of positive mosquitoes/total number of mosquitoes tested) at 14 days post-infection,77.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Center for Disease Control and Prevention Beijing China,colony,NA,NA,decimal,40.221,116.2312,Aedes albopictus,NA,NA,NA,31,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,33,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Ye et al. 2023. Clinical features and transmission risk analysis of dengue virus infections in Shenzhen during 2014-2019. Computational and Structural Biotechnology Journal 21,10.1016/j.csbj.2023.07.001,NA,NA,Paul Huxley,phuxly@gmail.com,The DENV-2 strain utilized in this study was initially isolated from a patient sample infected with DENV-2 and cultured in C6/36 cells.,TRUE,01/01/2023
NA,ZOU01,transmission efficiency,the proportion of females with infectious saliva among those that developed a disseminated infection,69.82,percent,50.45,84.83,CI,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,16,hours,CHIKV strain,CHIKV strain that populations were exposed to (1 = 06-021 strain 2 = 2010-1909 strain),1,NA,NA,NA,6,days,NA,Bar-sur-Loup France,field (F3-F4),NA,NA,decimal,43.702,6.9897,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,20,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Zouache et al. 2014. Three-way interactions between mosquito population viral strain and temperature underlying chikungunya virus transmission potential. Proc. R. Soc. B 281: 2014107,10.1098/rspb.2014.1078,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F3-F4,TRUE,01/01/2014
NA,ZOU01,transmission efficiency,the proportion of females with infectious saliva among those that developed a disseminated infection,87.09,percent,72.52,95.05,CI,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,16,hours,CHIKV strain,CHIKV strain that populations were exposed to (1 = 06-021 strain 2 = 2010-1909 strain),2,NA,NA,NA,6,days,NA,Bar-sur-Loup France,field (F3-F4),NA,NA,decimal,43.702,6.9897,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,20,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Zouache et al. 2014. Three-way interactions between mosquito population viral strain and temperature underlying chikungunya virus transmission potential. Proc. R. Soc. B 281: 2014107,10.1098/rspb.2014.1078,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F3-F4,TRUE,01/01/2014
NA,ZOU01,transmission efficiency,the proportion of females with infectious saliva among those that developed a disseminated infection,80.93,percent,62.91,92.34,CI,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,16,hours,CHIKV strain,CHIKV strain that populations were exposed to (1 = 06-021 strain 2 = 2010-1909 strain),1,NA,NA,NA,6,days,NA,Bar-sur-Loup France,field (F3-F4),NA,NA,decimal,43.702,6.9897,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Zouache et al. 2014. Three-way interactions between mosquito population viral strain and temperature underlying chikungunya virus transmission potential. Proc. R. Soc. B 281: 2014107,10.1098/rspb.2014.1078,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F3-F4,TRUE,01/01/2014
NA,ZOU01,transmission efficiency,the proportion of females with infectious saliva among those that developed a disseminated infection,61.71,percent,44.59,76.28,CI,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,16,hours,CHIKV strain,CHIKV strain that populations were exposed to (1 = 06-021 strain 2 = 2010-1909 strain),2,NA,NA,NA,6,days,NA,Bar-sur-Loup France,field (F3-F4),NA,NA,decimal,43.702,6.9897,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Zouache et al. 2014. Three-way interactions between mosquito population viral strain and temperature underlying chikungunya virus transmission potential. Proc. R. Soc. B 281: 2014107,10.1098/rspb.2014.1078,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F3-F4,TRUE,01/01/2014
NA,ZOU01,transmission efficiency,the proportion of females with infectious saliva among those that developed a disseminated infection,80.14,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,16,hours,CHIKV strain,CHIKV strain that populations were exposed to (1 = 06-021 strain 2 = 2010-1909 strain),1,NA,NA,NA,6,days,NA,Castiglione di Cervia Italy,field (F3),NA,NA,decimal,44.260556,12.255833,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,20,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Zouache et al. 2014. Three-way interactions between mosquito population viral strain and temperature underlying chikungunya virus transmission potential. Proc. R. Soc. B 281: 2014107,10.1098/rspb.2014.1078,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F3-F4,TRUE,01/01/2014
NA,ZOU01,transmission efficiency,the proportion of females with infectious saliva among those that developed a disseminated infection,54.69,percent,39.05,70.88,CI,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,16,hours,CHIKV strain,CHIKV strain that populations were exposed to (1 = 06-021 strain 2 = 2010-1909 strain),2,NA,NA,NA,6,days,NA,Castiglione di Cervia Italy,field (F3),NA,NA,decimal,44.260556,12.255833,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,20,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Zouache et al. 2014. Three-way interactions between mosquito population viral strain and temperature underlying chikungunya virus transmission potential. Proc. R. Soc. B 281: 2014107,10.1098/rspb.2014.1078,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F3-F4,TRUE,01/01/2014
NA,ZOU01,transmission efficiency,the proportion of females with infectious saliva among those that developed a disseminated infection,80.82,percent,64.08,90.61,CI,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,16,hours,CHIKV strain,CHIKV strain that populations were exposed to (1 = 06-021 strain 2 = 2010-1909 strain),1,NA,NA,NA,6,days,NA,Castiglione di Cervia Italy,field (F3),NA,NA,decimal,44.260556,12.255833,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Zouache et al. 2014. Three-way interactions between mosquito population viral strain and temperature underlying chikungunya virus transmission potential. Proc. R. Soc. B 281: 2014107,10.1098/rspb.2014.1078,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F3-F4,TRUE,01/01/2014
NA,ZOU01,transmission efficiency,the proportion of females with infectious saliva among those that developed a disseminated infection,50.07,percent,34.29,66.26,CI,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,16,hours,CHIKV strain,CHIKV strain that populations were exposed to (1 = 06-021 strain 2 = 2010-1909 strain),2,NA,NA,NA,6,days,NA,Castiglione di Cervia Italy,field (F3),NA,NA,decimal,44.260556,12.255833,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Zouache et al. 2014. Three-way interactions between mosquito population viral strain and temperature underlying chikungunya virus transmission potential. Proc. R. Soc. B 281: 2014107,10.1098/rspb.2014.1078,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F3-F4,TRUE,01/01/2014
NA,ZOU01,transmission efficiency,the proportion of females with infectious saliva among those that developed a disseminated infection,27.54,percent,15.25,44.35,CI,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,16,hours,CHIKV strain,CHIKV strain that populations were exposed to (1 = 06-021 strain 2 = 2010-1909 strain),1,NA,NA,NA,6,days,NA,Ulcinj Montenegro,field (F1-F2),NA,NA,decimal,41.916667,19.2,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,20,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Zouache et al. 2014. Three-way interactions between mosquito population viral strain and temperature underlying chikungunya virus transmission potential. Proc. R. Soc. B 281: 2014107,10.1098/rspb.2014.1078,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1-F2,TRUE,01/01/2014
NA,ZOU01,transmission efficiency,the proportion of females with infectious saliva among those that developed a disseminated infection,49.86,percent,34.18,66.1,CI,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,16,hours,CHIKV strain,CHIKV strain that populations were exposed to (1 = 06-021 strain 2 = 2010-1909 strain),2,NA,NA,NA,6,days,NA,Ulcinj Montenegro,field (F1-F2),NA,NA,decimal,41.916667,19.2,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,20,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Zouache et al. 2014. Three-way interactions between mosquito population viral strain and temperature underlying chikungunya virus transmission potential. Proc. R. Soc. B 281: 2014107,10.1098/rspb.2014.1078,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1-F2,TRUE,01/01/2014
NA,ZOU01,transmission efficiency,the proportion of females with infectious saliva among those that developed a disseminated infection,59.89,percent,43.5,75,CI,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,16,hours,CHIKV strain,CHIKV strain that populations were exposed to (1 = 06-021 strain 2 = 2010-1909 strain),1,NA,NA,NA,6,days,NA,Ulcinj Montenegro,field (F1-F2),NA,NA,decimal,41.916667,19.2,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Zouache et al. 2014. Three-way interactions between mosquito population viral strain and temperature underlying chikungunya virus transmission potential. Proc. R. Soc. B 281: 2014107,10.1098/rspb.2014.1078,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1-F2,TRUE,01/01/2014
NA,ZOU01,transmission efficiency,the proportion of females with infectious saliva among those that developed a disseminated infection,75.28,percent,58.9,86.58,CI,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,16,hours,CHIKV strain,CHIKV strain that populations were exposed to (1 = 06-021 strain 2 = 2010-1909 strain),2,NA,NA,NA,6,days,NA,Ulcinj Montenegro,field (F1-F2),NA,NA,decimal,41.916667,19.2,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Zouache et al. 2014. Three-way interactions between mosquito population viral strain and temperature underlying chikungunya virus transmission potential. Proc. R. Soc. B 281: 2014107,10.1098/rspb.2014.1078,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1-F2,TRUE,01/01/2014
NA,ZOU01,transmission efficiency,the proportion of females with infectious saliva among those that developed a disseminated infection,37.66,percent,23.55,54.44,CI,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,16,hours,CHIKV strain,CHIKV strain that populations were exposed to (1 = 06-021 strain 2 = 2010-1909 strain),1,NA,NA,NA,6,days,NA,Manaus Brazil,field (F3),NA,NA,decimal,-3.044444,-59.941111,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,20,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Zouache et al. 2014. Three-way interactions between mosquito population viral strain and temperature underlying chikungunya virus transmission potential. Proc. R. Soc. B 281: 2014107,10.1098/rspb.2014.1078,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F3-F4,TRUE,01/01/2014
NA,ZOU01,transmission efficiency,the proportion of females with infectious saliva among those that developed a disseminated infection,75.32,percent,58.96,86.74,CI,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,16,hours,CHIKV strain,CHIKV strain that populations were exposed to (1 = 06-021 strain 2 = 2010-1909 strain),2,NA,NA,NA,6,days,NA,Manaus Brazil,field (F3),NA,NA,decimal,-3.044444,-59.941111,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,20,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Zouache et al. 2014. Three-way interactions between mosquito population viral strain and temperature underlying chikungunya virus transmission potential. Proc. R. Soc. B 281: 2014107,10.1098/rspb.2014.1078,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F3-F4,TRUE,01/01/2014
NA,ZOU01,transmission efficiency,the proportion of females with infectious saliva among those that developed a disseminated infection,85.47,percent,69.82,93.94,CI,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,16,hours,CHIKV strain,CHIKV strain that populations were exposed to (1 = 06-021 strain 2 = 2010-1909 strain),1,NA,NA,NA,6,days,NA,Manaus Brazil,field (F3),NA,NA,decimal,-3.044444,-59.941111,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Zouache et al. 2014. Three-way interactions between mosquito population viral strain and temperature underlying chikungunya virus transmission potential. Proc. R. Soc. B 281: 2014107,10.1098/rspb.2014.1078,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F3-F4,TRUE,01/01/2014
NA,ZOU01,transmission efficiency,the proportion of females with infectious saliva among those that developed a disseminated infection,34.84,percent,21.44,52.05,CI,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,16,hours,CHIKV strain,CHIKV strain that populations were exposed to (1 = 06-021 strain 2 = 2010-1909 strain),2,NA,NA,NA,6,days,NA,Manaus Brazil,field (F3),NA,NA,decimal,-3.044444,-59.941111,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Zouache et al. 2014. Three-way interactions between mosquito population viral strain and temperature underlying chikungunya virus transmission potential. Proc. R. Soc. B 281: 2014107,10.1098/rspb.2014.1078,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F3-F4,TRUE,01/01/2014
NA,ZOU01,transmission efficiency,the proportion of females with infectious saliva among those that developed a disseminated infection,12.59,percent,4.95,27.72,CI,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,16,hours,CHIKV strain,CHIKV strain that populations were exposed to (1 = 06-021 strain 2 = 2010-1909 strain),1,NA,NA,NA,6,days,NA,Binh Phuoc Vietnam,field (F8-F9),NA,NA,decimal,11.75,106.92,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,20,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Zouache et al. 2014. Three-way interactions between mosquito population viral strain and temperature underlying chikungunya virus transmission potential. Proc. R. Soc. B 281: 2014107,10.1098/rspb.2014.1078,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F8-F9,TRUE,01/01/2014
NA,ZOU01,transmission efficiency,the proportion of females with infectious saliva among those that developed a disseminated infection,47.38,percent,31.82,63.65,CI,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,16,hours,CHIKV strain,CHIKV strain that populations were exposed to (1 = 06-021 strain 2 = 2010-1909 strain),2,NA,NA,NA,6,days,NA,Binh Phuoc Vietnam,field (F8-F9),NA,NA,decimal,11.75,106.92,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,20,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Zouache et al. 2014. Three-way interactions between mosquito population viral strain and temperature underlying chikungunya virus transmission potential. Proc. R. Soc. B 281: 2014107,10.1098/rspb.2014.1078,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F8-F9,TRUE,01/01/2014
NA,ZOU01,transmission efficiency,the proportion of females with infectious saliva among those that developed a disseminated infection,35.22,percent,21.22,51.63,CI,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,16,hours,CHIKV strain,CHIKV strain that populations were exposed to (1 = 06-021 strain 2 = 2010-1909 strain),1,NA,NA,NA,6,days,NA,Binh Phuoc Vietnam,field (F8-F9),NA,NA,decimal,11.75,106.92,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Zouache et al. 2014. Three-way interactions between mosquito population viral strain and temperature underlying chikungunya virus transmission potential. Proc. R. Soc. B 281: 2014107,10.1098/rspb.2014.1078,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F8-F9,TRUE,01/01/2014
NA,ZOU01,transmission efficiency,the proportion of females with infectious saliva among those that developed a disseminated infection,42.15,percent,27.58,58.84,CI,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,16,hours,CHIKV strain,CHIKV strain that populations were exposed to (1 = 06-021 strain 2 = 2010-1909 strain),2,NA,NA,NA,6,days,NA,Binh Phuoc Vietnam,field (F8-F9),NA,NA,decimal,11.75,106.92,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Zouache et al. 2014. Three-way interactions between mosquito population viral strain and temperature underlying chikungunya virus transmission potential. Proc. R. Soc. B 281: 2014107,10.1098/rspb.2014.1078,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F8-F9,TRUE,01/01/2014
NA,ZOU01,transmission efficiency,the proportion of females with infectious saliva among those that developed a disseminated infection,47.39,percent,31.45,63.47,CI,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,16,hours,CHIKV strain,CHIKV strain that populations were exposed to (1 = 06-021 strain 2 = 2010-1909 strain),1,NA,NA,NA,6,days,NA,Providence La Reunion,field (F8-F9),NA,NA,decimal,-20.88,55.45,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,20,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Zouache et al. 2014. Three-way interactions between mosquito population viral strain and temperature underlying chikungunya virus transmission potential. Proc. R. Soc. B 281: 2014107,10.1098/rspb.2014.1078,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F8-F9,TRUE,01/01/2014
NA,ZOU01,transmission efficiency,the proportion of females with infectious saliva among those that developed a disseminated infection,52.33,percent,36.25,67.98,CI,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,16,hours,CHIKV strain,CHIKV strain that populations were exposed to (1 = 06-021 strain 2 = 2010-1909 strain),2,NA,NA,NA,6,days,NA,Providence La Reunion,field (F8-F9),NA,NA,decimal,-20.88,55.45,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,20,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Zouache et al. 2014. Three-way interactions between mosquito population viral strain and temperature underlying chikungunya virus transmission potential. Proc. R. Soc. B 281: 2014107,10.1098/rspb.2014.1078,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F8-F9,TRUE,01/01/2014
NA,ZOU01,transmission efficiency,the proportion of females with infectious saliva among those that developed a disseminated infection,49.79,percent,34.27,65.73,CI,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,16,hours,CHIKV strain,CHIKV strain that populations were exposed to (1 = 06-021 strain 2 = 2010-1909 strain),1,NA,NA,NA,6,days,NA,Providence La Reunion,field (F8-F9),NA,NA,decimal,-20.88,55.45,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Zouache et al. 2014. Three-way interactions between mosquito population viral strain and temperature underlying chikungunya virus transmission potential. Proc. R. Soc. B 281: 2014107,10.1098/rspb.2014.1078,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F8-F9,TRUE,01/01/2014
NA,ZOU01,transmission efficiency,the proportion of females with infectious saliva among those that developed a disseminated infection,49.65,percent,34.13,65.59,CI,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,16,hours,CHIKV strain,CHIKV strain that populations were exposed to (1 = 06-021 strain 2 = 2010-1909 strain),2,NA,NA,NA,6,days,NA,Providence La Reunion,field (F8-F9),NA,NA,decimal,-20.88,55.45,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Zouache et al. 2014. Three-way interactions between mosquito population viral strain and temperature underlying chikungunya virus transmission potential. Proc. R. Soc. B 281: 2014107,10.1098/rspb.2014.1078,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F8-F9,TRUE,01/01/2014
NA,PEDM1,development time,mean duration of life stage,12,days,1.2,1.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,23/05/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (L1 to adult),male,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined number of individuals across replicates (40 multiplied by 5) divided by two assuming a 1:1 male to female ratio,TRUE,01/01/2018
NA,PEDM1,development time,mean duration of life stage,10.7,days,0.6,0.6,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Senkenberg BiK F mesocosm hall,field,23/05/2015,5,decimal,50.11626835,8.649652285,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (L1 to adult),male,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined number of individuals across replicates (40 multiplied by 5) divided by two assuming a 1:1 male to female ratio,TRUE,01/01/2018
NA,PEDM1,development time,mean duration of life stage,10.5,days,1.3,1.3,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,26/06/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (L1 to adult),male,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined number of individuals across replicates (40 multiplied by 5) divided by two assuming a 1:1 male to female ratio,TRUE,01/01/2018
NA,PEDM1,development time,mean duration of life stage,10.3,days,0.6,0.6,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,04/07/2016,5,decimal,52.3116593,9.805051758,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (L1 to adult),male,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined number of individuals across replicates (40 multiplied by 5) divided by two assuming a 1:1 male to female ratio,TRUE,01/01/2018
NA,PEDM1,development time,mean duration of life stage,10,days,0.9,0.9,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,26/06/2015,5,decimal,52.3116593,9.805051758,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (L1 to adult),male,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined number of individuals across replicates (40 multiplied by 5) divided by two assuming a 1:1 male to female ratio,TRUE,01/01/2018
NA,PEDM1,development time,mean duration of life stage,12.5,days,2.1,2.1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,15/06/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (L1 to adult),male,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined number of individuals across replicates (40 multiplied by 5) divided by two assuming a 1:1 male to female ratio,TRUE,01/01/2018
NA,PEDM1,development time,mean duration of life stage,45.1,days,3,3,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,07/08/2016,5,decimal,52.3116593,9.805051758,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (hatch to pupa),female,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,PEDM1,development time,mean duration of life stage,37.9,days,3.1,3.1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,23/05/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (hatch to pupa),female,12,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,PEDM1,development time,mean duration of life stage,25.6,days,2.2,2.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,23/05/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (hatch to pupa),female,14,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,PEDM1,development time,mean duration of life stage,26.1,days,2.3,2.3,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,23/05/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (hatch to pupa),female,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,PEDM1,development time,mean duration of life stage,21.4,days,1.7,1.7,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,26/06/2015,5,decimal,52.3116593,9.805051758,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (hatch to pupa),female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,PEDM1,development time,mean duration of life stage,12.8,days,1.2,1.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,21/07/2015,5,decimal,52.3116593,9.805051758,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (hatch to pupa),female,19,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,PEDM1,development time,mean duration of life stage,14,days,1.3,1.3,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,23/05/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (hatch to pupa),female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,PEDM1,development time,mean duration of life stage,11,days,0.8,0.8,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Senkenberg BiK F mesocosm hall,field,26/06/2015,5,decimal,50.11626835,8.649652285,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (hatch to pupa),female,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,PEDM1,development time,mean duration of life stage,10.2,days,1.2,1.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,23/05/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (hatch to pupa),female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,PEDM1,development time,mean duration of life stage,8.8,days,0.7,0.7,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Senkenberg BiK F mesocosm hall,field,23/05/2015,5,decimal,50.11626835,8.649652285,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (hatch to pupa),female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,PEDM1,development time,mean duration of life stage,8.8,days,1.1,1.1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,26/06/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (hatch to pupa),female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,PEDM1,development time,mean duration of life stage,8.7,days,1,1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,04/07/2016,5,decimal,52.3116593,9.805051758,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (hatch to pupa),female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,PEDM1,development time,mean duration of life stage,8.8,days,1,1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,26/06/2015,5,decimal,52.3116593,9.805051758,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (hatch to pupa),female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,PEDM1,development time,mean duration of life stage,9.7,days,1.2,1.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,15/06/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (hatch to pupa),female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,NA,mortality rate,replicate-level daily rate of mortality during life stage,0.076,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,10.54,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,NA,mortality rate,replicate-level daily rate of mortality during life stage,0.0917,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,10.73,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,NA,mortality rate,replicate-level daily rate of mortality during life stage,0.0362,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,15.31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,NA,mortality rate,replicate-level daily rate of mortality during life stage,0.0327,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16.51,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,NA,mortality rate,replicate-level daily rate of mortality during life stage,0.0423,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,20.03,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,NA,mortality rate,replicate-level daily rate of mortality during life stage,0.0373,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21.74,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,NA,mortality rate,replicate-level daily rate of mortality during life stage,0.0304,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25.62,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,NA,mortality rate,replicate-level daily rate of mortality during life stage,0.0273,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27.6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,NA,mortality rate,replicate-level daily rate of mortality during life stage,0.044,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31.37,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,NA,mortality rate,replicate-level daily rate of mortality during life stage,0.0345,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31.61,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,NA,mortality rate,replicate-level daily rate of mortality during life stage,0.0448,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32.59,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,NA,mortality rate,replicate-level daily rate of mortality during life stage,0.05,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33.43,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,NA,fecundity rate,observed eggs per unit time,0.054,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,10.54,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,NA,fecundity rate,observed eggs per unit time,0.054,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,10.67,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,NA,fecundity rate,observed eggs per unit time,0.322,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,15.26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,NA,fecundity rate,observed eggs per unit time,1.086,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16.52,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,NA,fecundity rate,observed eggs per unit time,3.351,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,20.08,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,NA,fecundity rate,observed eggs per unit time,3.541,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21.78,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,NA,fecundity rate,observed eggs per unit time,3.787,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21.72,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,NA,fecundity rate,observed eggs per unit time,7.063,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25.57,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,NA,fecundity rate,observed eggs per unit time,7.607,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27.65,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,NA,fecundity rate,observed eggs per unit time,11.265,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32.63,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,NA,fecundity rate,observed eggs per unit time,9.571,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31.31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,NA,fecundity rate,observed eggs per unit time,7.247,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31.61,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,NA,fecundity rate,observed eggs per unit time,7.245,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33.39,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,NA,survival,replicate-level percentage surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 6,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2009
NA,NA,survival,replicate-level percentage surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 6,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=52),TRUE,01/01/2009
NA,NA,survival,replicate-level percentage surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 6,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=49),TRUE,01/01/2009
NA,NA,survival,replicate-level percentage surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 6,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=104),TRUE,01/01/2009
NA,NA,survival,replicate-level percentage surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,10.38,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 6,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=97),TRUE,01/01/2009
NA,NA,survival,replicate-level percentage surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,10.45,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 6,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=106),TRUE,01/01/2009
NA,NA,survival,replicate-level percentage surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,10.45,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 6,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=49),TRUE,01/01/2009
NA,NA,survival,replicate-level percentage surviving life stage,22.22,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,14.74,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 6,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=81),TRUE,01/01/2009
NA,NA,survival,replicate-level percentage surviving life stage,54.65,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,47,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,14.84,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 6,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=86),TRUE,01/01/2009
NA,NA,survival,replicate-level percentage surviving life stage,23.23,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,23,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,14.92,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 6,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=99),TRUE,01/01/2009
NA,NA,survival,replicate-level percentage surviving life stage,97.98,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,97,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,18.86,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 6,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=99),TRUE,01/01/2009
NA,NA,survival,replicate-level percentage surviving life stage,81.19,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,82,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,19.04,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 6,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=101),TRUE,01/01/2009
NA,NA,survival,replicate-level percentage surviving life stage,95.92,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,94,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,19.18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 6,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=98),TRUE,01/01/2009
NA,NA,survival,replicate-level percentage surviving life stage,98,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26.56,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 6,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=100),TRUE,01/01/2009
NA,NA,survival,replicate-level percentage surviving life stage,97.89,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,93,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26.84,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 6,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=95),TRUE,01/01/2009
NA,NA,survival,replicate-level percentage surviving life stage,98.98,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,97,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26.85,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 6,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=98),TRUE,01/01/2009
NA,NA,survival,replicate-level percentage surviving life stage,94.85,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,92,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,30.83,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 6,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=97),TRUE,01/01/2009
NA,NA,survival,replicate-level percentage surviving life stage,98.96,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,95,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,31.61,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 6,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=96),TRUE,01/01/2009
NA,NA,survival,replicate-level percentage surviving life stage,93.88,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,95,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34.95,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 6,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=98),TRUE,01/01/2009
NA,NA,survival,replicate-level percentage surviving life stage,97.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,89,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36.47,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 6,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=91),TRUE,01/01/2009
NA,NA,survival,replicate-level percentage surviving life stage,95.65,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,88,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,36.55,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 6,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=92),TRUE,01/01/2009
NA,NA,survival,replicate-level percentage surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,39.95,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 6,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=93),TRUE,01/01/2009
NA,NA,survival,replicate-level percentage surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,40.16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 6,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=106),TRUE,01/01/2009
NA,NA,survival,replicate-level percentage surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,40.64,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 6,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=106),TRUE,01/01/2009
NA,NA,hatching time,mean duration for eggs to hatch after exposure to water,3.7,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,PEDM1,development time,mean duration of life stage,59.3,days,3.1,3.1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,07/08/2016,5,decimal,52.3116593,9.805051758,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (L1 to adult),female,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined number of individuals across replicates (40 multiplied by 5) divided by two assuming a 1:1 male to female ratio,TRUE,01/01/2018
NA,PEDM1,development time,mean duration of life stage,47.8,days,3.2,3.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,23/05/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (L1 to adult),female,12,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,PEDM1,development time,mean duration of life stage,32.4,days,2.2,2.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,23/05/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (L1 to adult),female,14,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,PEDM1,development time,mean duration of life stage,32.1,days,2.4,2.4,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,23/05/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (L1 to adult),female,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,PEDM1,development time,mean duration of life stage,26.2,days,1.8,1.8,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,26/06/2015,5,decimal,52.3116593,9.805051758,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (L1 to adult),female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined number of individuals across replicates (40 multiplied by 5) divided by two assuming a 1:1 male to female ratio,TRUE,01/01/2018
NA,PEDM1,development time,mean duration of life stage,15.8,days,1.4,1.4,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,21/07/2015,5,decimal,52.3116593,9.805051758,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (L1 to adult),female,19,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined number of individuals across replicates (40 multiplied by 5) divided by two assuming a 1:1 male to female ratio,TRUE,01/01/2018
NA,NA,hatching time,mean duration for eggs to hatch after exposure to water,2.7,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,PEDM1,development time,mean duration of life stage,17.5,days,1.5,1.5,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,23/05/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (L1 to adult),female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,PEDM1,development time,mean duration of life stage,13.9,days,0.9,0.9,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Senkenberg BiK F mesocosm hall,field,26/06/2015,5,decimal,50.11626835,8.649652285,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (L1 to adult),female,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,PEDM1,development time,mean duration of life stage,12.6,days,1.3,1.3,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,23/05/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (L1 to adult),female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,PEDM1,development time,mean duration of life stage,11.1,days,0.7,0.7,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Senkenberg BiK F mesocosm hall,field,23/05/2015,5,decimal,50.11626835,8.649652285,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (L1 to adult),female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,PEDM1,development time,mean duration of life stage,11,days,1.2,1.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,26/06/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (L1 to adult),female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,PEDM1,development time,mean duration of life stage,10.8,days,0.9,0.9,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,04/07/2016,5,decimal,52.3116593,9.805051758,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (L1 to adult),female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined number of individuals across replicates (40 multiplied by 5) divided by two assuming a 1:1 male to female ratio,TRUE,01/01/2018
NA,NA,hatching time,mean duration for eggs to hatch after exposure to water,1.7,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,PEDM1,development time,mean duration of life stage,10.8,days,1.1,1.1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rubarth Apparate Rumed 304 Laatzen Germany,field,26/06/2015,5,decimal,52.3116593,9.805051758,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (L1 to adult),female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,interactor1number is the combined number of individuals across replicates (40 multiplied by 5) divided by two assuming a 1:1 male to female ratio,TRUE,01/01/2018
NA,PEDM1,development time,mean duration of life stage,11.2,days,1.3,1.3,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Mkkl 1200 Flohr Utrecht Netherlands,field,15/06/2015,5,decimal,52.02776373,5.101840332,Aedes japonicus japonicus,Asian bush mosquito,whole,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,japonicus,juvenile (L1 to adult),female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S2,Reuss et al. 2018. Thermal experiments with the Asian bush mosquito Aedes japonicus japonicus Diptera Culicidae and implications for its distribution in Germany. Parasites and Vectors 11 81,10.1186/s13071-018-2659-1,NA,NA,Thomas Byrne,thomasbyrne@vt.edu,NA,TRUE,01/01/2018
NA,NA,development time,mean duration of life stage,0,days,NA,NA,NA,FALSE,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Queensland Australia (various locations),field (F5 gen.),15/04/2008,4,decimal,-18.31,145.705,Aedes aegypti,Yellow fever mosquito,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),male,12,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Richardson et al. 2011. Thermal sensitivity of Aedes aegypti from Australia: empirical data and prediction of effects on distribution. J. Med. Entomol. 48: 914-923,10.1603/ME10204,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from n=60 at the start of the experiment,TRUE,01/01/2011
NA,NA,development time,mean duration of life stage,30.96,days,1.51,1.51,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Queensland Australia (various locations),field (F5 gen.),15/04/2008,4,decimal,-18.31,145.705,Aedes aegypti,Yellow fever mosquito,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),male,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Richardson et al. 2011. Thermal sensitivity of Aedes aegypti from Australia: empirical data and prediction of effects on distribution. J. Med. Entomol. 48: 914-923,10.1603/ME10204,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from n=60 at the start of the experiment,TRUE,01/01/2011
NA,NA,development time,mean duration of life stage,9.84,days,0.25,0.25,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Queensland Australia (various locations),field (F5 gen.),15/04/2008,4,decimal,-18.31,145.705,Aedes aegypti,Yellow fever mosquito,NA,NA,56,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),male,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Richardson et al. 2011. Thermal sensitivity of Aedes aegypti from Australia: empirical data and prediction of effects on distribution. J. Med. Entomol. 48: 914-923,10.1603/ME10204,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from n=60 at the start of the experiment,TRUE,01/01/2011
NA,NA,development time,mean duration of life stage,6.39,days,0.25,0.25,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Queensland Australia (various locations),field (F5 gen.),15/04/2008,4,decimal,-18.31,145.705,Aedes aegypti,Yellow fever mosquito,NA,NA,55,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),male,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Richardson et al. 2011. Thermal sensitivity of Aedes aegypti from Australia: empirical data and prediction of effects on distribution. J. Med. Entomol. 48: 914-923,10.1603/ME10204,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from n=60 at the start of the experiment,TRUE,01/01/2011
NA,NA,hatching time,mean duration for eggs to hatch after exposure to water,1,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,6.23,days,0.34,0.34,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Queensland Australia (various locations),field (F5 gen.),15/04/2008,4,decimal,-18.31,145.705,Aedes aegypti,Yellow fever mosquito,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),male,37,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Richardson et al. 2011. Thermal sensitivity of Aedes aegypti from Australia: empirical data and prediction of effects on distribution. J. Med. Entomol. 48: 914-923,10.1603/ME10204,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from n=60 at the start of the experiment,TRUE,01/01/2011
NA,NA,development time,mean duration of life stage,7.07,days,0.42,0.42,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Queensland Australia (various locations),field (F5 gen.),15/04/2008,4,decimal,-18.31,145.705,Aedes aegypti,Yellow fever mosquito,NA,NA,22,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),male,40,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Richardson et al. 2011. Thermal sensitivity of Aedes aegypti from Australia: empirical data and prediction of effects on distribution. J. Med. Entomol. 48: 914-923,10.1603/ME10204,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from n=60 at the start of the experiment,TRUE,01/01/2011
NA,NA,development time,mean duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Queensland Australia (various locations),field (F5 gen.),15/04/2008,4,decimal,-18.31,145.705,Aedes aegypti,Yellow fever mosquito,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,12,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Richardson et al. 2011. Thermal sensitivity of Aedes aegypti from Australia: empirical data and prediction of effects on distribution. J. Med. Entomol. 48: 914-923,10.1603/ME10204,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from n=60 at the start of the experiment,TRUE,01/01/2011
NA,NA,development time,mean duration of life stage,30.12,days,0.67,0.67,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Queensland Australia (various locations),field (F5 gen.),15/04/2008,4,decimal,-18.31,145.705,Aedes aegypti,Yellow fever mosquito,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Richardson et al. 2011. Thermal sensitivity of Aedes aegypti from Australia: empirical data and prediction of effects on distribution. J. Med. Entomol. 48: 914-923,10.1603/ME10204,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from n=60 at the start of the experiment,TRUE,01/01/2011
NA,NA,development time,mean duration of life stage,10.35,days,0.17,0.17,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Queensland Australia (various locations),field (F5 gen.),15/04/2008,4,decimal,-18.31,145.705,Aedes aegypti,Yellow fever mosquito,NA,NA,56,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Richardson et al. 2011. Thermal sensitivity of Aedes aegypti from Australia: empirical data and prediction of effects on distribution. J. Med. Entomol. 48: 914-923,10.1603/ME10204,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from n=60 at the start of the experiment,TRUE,01/01/2011
NA,NA,development time,mean duration of life stage,7.32,days,0.5,0.5,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Queensland Australia (various locations),field (F5 gen.),15/04/2008,4,decimal,-18.31,145.705,Aedes aegypti,Yellow fever mosquito,NA,NA,55,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Richardson et al. 2011. Thermal sensitivity of Aedes aegypti from Australia: empirical data and prediction of effects on distribution. J. Med. Entomol. 48: 914-923,10.1603/ME10204,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from n=60 at the start of the experiment,TRUE,01/01/2011
NA,NA,hatching time,mean duration for eggs to hatch after exposure to water,3.7,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,6.65,days,0.17,0.17,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Queensland Australia (various locations),field (F5 gen.),15/04/2008,4,decimal,-18.31,145.705,Aedes aegypti,Yellow fever mosquito,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,37,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Richardson et al. 2011. Thermal sensitivity of Aedes aegypti from Australia: empirical data and prediction of effects on distribution. J. Med. Entomol. 48: 914-923,10.1603/ME10204,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from n=60 at the start of the experiment,TRUE,01/01/2011
NA,NA,development time,mean duration of life stage,7.57,days,0.42,0.42,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Queensland Australia (various locations),field (F5 gen.),15/04/2008,4,decimal,-18.31,145.705,Aedes aegypti,Yellow fever mosquito,NA,NA,22,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,40,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Richardson et al. 2011. Thermal sensitivity of Aedes aegypti from Australia: empirical data and prediction of effects on distribution. J. Med. Entomol. 48: 914-923,10.1603/ME10204,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from n=60 at the start of the experiment,TRUE,01/01/2011
NA,NA,development time,mean duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Queensland Australia (various locations),field (F5 gen.),15/04/2008,4,decimal,-18.31,145.705,Aedes aegypti,Yellow fever mosquito,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,12,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Richardson et al. 2011. Thermal sensitivity of Aedes aegypti from Australia: empirical data and prediction of effects on distribution. J. Med. Entomol. 48: 914-923,10.1603/ME10204,NA,NA,Paul Huxley,phuxly@gmail.com,trait value set to zero because mortality was complete at this temperature. interactor1number is the number of individuals that did not survive life stage from the initial number of individuals at the start of the experiment (n=60),TRUE,01/01/2011
NA,NA,development time,mean duration of life stage,5.08,days,0.18,0.18,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Queensland Australia (various locations),field (F5 gen.),15/04/2008,4,decimal,-18.31,145.705,Aedes aegypti,Yellow fever mosquito,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Richardson et al. 2011. Thermal sensitivity of Aedes aegypti from Australia: empirical data and prediction of effects on distribution. J. Med. Entomol. 48: 914-923,10.1603/ME10204,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=60),TRUE,01/01/2011
NA,NA,development time,mean duration of life stage,2.57,days,0.12,0.12,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Queensland Australia (various locations),field (F5 gen.),15/04/2008,4,decimal,-18.31,145.705,Aedes aegypti,Yellow fever mosquito,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Richardson et al. 2011. Thermal sensitivity of Aedes aegypti from Australia: empirical data and prediction of effects on distribution. J. Med. Entomol. 48: 914-923,10.1603/ME10204,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=60),TRUE,01/01/2011
NA,NA,development time,mean duration of life stage,1.67,days,0.24,0.24,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Queensland Australia (various locations),field (F5 gen.),15/04/2008,4,decimal,-18.31,145.705,Aedes aegypti,Yellow fever mosquito,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Richardson et al. 2011. Thermal sensitivity of Aedes aegypti from Australia: empirical data and prediction of effects on distribution. J. Med. Entomol. 48: 914-923,10.1603/ME10204,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=60),TRUE,01/01/2011
NA,NA,hatching time,mean duration for eggs to hatch after exposure to water,2.7,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,1.38,days,0.06,0.06,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Queensland Australia (various locations),field (F5 gen.),15/04/2008,4,decimal,-18.31,145.705,Aedes aegypti,Yellow fever mosquito,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,37,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Richardson et al. 2011. Thermal sensitivity of Aedes aegypti from Australia: empirical data and prediction of effects on distribution. J. Med. Entomol. 48: 914-923,10.1603/ME10204,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=60),TRUE,01/01/2011
NA,NA,development time,mean duration of life stage,1.61,days,0.12,0.12,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Queensland Australia (various locations),field (F5 gen.),15/04/2008,4,decimal,-18.31,145.705,Aedes aegypti,Yellow fever mosquito,NA,NA,38,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,40,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Richardson et al. 2011. Thermal sensitivity of Aedes aegypti from Australia: empirical data and prediction of effects on distribution. J. Med. Entomol. 48: 914-923,10.1603/ME10204,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=60),TRUE,01/01/2011
NA,NA,development time,mean duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Queensland Australia (various locations),field (F5 gen.),15/04/2008,4,decimal,-18.31,145.705,Aedes aegypti,Yellow fever mosquito,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,12,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Richardson et al. 2011. Thermal sensitivity of Aedes aegypti from Australia: empirical data and prediction of effects on distribution. J. Med. Entomol. 48: 914-923,10.1603/ME10204,NA,NA,Paul Huxley,phuxly@gmail.com,trait value set to zero because mortality was complete at this temperature. interactor1number is the number of individuals that did not survive life stage from the initial number of individuals at the start of the experiment (n=60),TRUE,01/01/2011
NA,NA,development time,mean duration of life stage,8.55,days,0.3,0.3,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Queensland Australia (various locations),field (F5 gen.),15/04/2008,4,decimal,-18.31,145.705,Aedes aegypti,Yellow fever mosquito,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Richardson et al. 2011. Thermal sensitivity of Aedes aegypti from Australia: empirical data and prediction of effects on distribution. J. Med. Entomol. 48: 914-923,10.1603/ME10204,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=60),TRUE,01/01/2011
NA,NA,development time,mean duration of life stage,3.35,days,0.18,0.18,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Queensland Australia (various locations),field (F5 gen.),15/04/2008,4,decimal,-18.31,145.705,Aedes aegypti,Yellow fever mosquito,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Richardson et al. 2011. Thermal sensitivity of Aedes aegypti from Australia: empirical data and prediction of effects on distribution. J. Med. Entomol. 48: 914-923,10.1603/ME10204,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=60),TRUE,01/01/2011
NA,NA,development time,mean duration of life stage,2.69,days,0.18,0.18,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Queensland Australia (various locations),field (F5 gen.),15/04/2008,4,decimal,-18.31,145.705,Aedes aegypti,Yellow fever mosquito,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Richardson et al. 2011. Thermal sensitivity of Aedes aegypti from Australia: empirical data and prediction of effects on distribution. J. Med. Entomol. 48: 914-923,10.1603/ME10204,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=60),TRUE,01/01/2011
NA,NA,hatching time,mean duration for eggs to hatch after exposure to water,1.7,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,2.45,days,0.12,0.12,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Queensland Australia (various locations),field (F5 gen.),15/04/2008,4,decimal,-18.31,145.705,Aedes aegypti,Yellow fever mosquito,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,37,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Richardson et al. 2011. Thermal sensitivity of Aedes aegypti from Australia: empirical data and prediction of effects on distribution. J. Med. Entomol. 48: 914-923,10.1603/ME10204,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=60),TRUE,01/01/2011
NA,NA,development time,mean duration of life stage,2.63,days,0.24,0.24,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Queensland Australia (various locations),field (F5 gen.),15/04/2008,4,decimal,-18.31,145.705,Aedes aegypti,Yellow fever mosquito,NA,NA,38,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,40,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Richardson et al. 2011. Thermal sensitivity of Aedes aegypti from Australia: empirical data and prediction of effects on distribution. J. Med. Entomol. 48: 914-923,10.1603/ME10204,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=60),TRUE,01/01/2011
NA,NA,development time,mean duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Queensland Australia (various locations),field (F5 gen.),15/04/2008,4,decimal,-18.31,145.705,Aedes aegypti,Yellow fever mosquito,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,12,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Richardson et al. 2011. Thermal sensitivity of Aedes aegypti from Australia: empirical data and prediction of effects on distribution. J. Med. Entomol. 48: 914-923,10.1603/ME10204,NA,NA,Paul Huxley,phuxly@gmail.com,trait value set to zero because mortality was complete at this temperature. interactor1number is the number of individuals that did not survive life stage from the initial number of individuals at the start of the experiment (n=60),TRUE,01/01/2011
NA,NA,development time,mean duration of life stage,13.22,days,0.24,0.24,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Queensland Australia (various locations),field (F5 gen.),15/04/2008,4,decimal,-18.31,145.705,Aedes aegypti,Yellow fever mosquito,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Richardson et al. 2011. Thermal sensitivity of Aedes aegypti from Australia: empirical data and prediction of effects on distribution. J. Med. Entomol. 48: 914-923,10.1603/ME10204,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=60),TRUE,01/01/2011
NA,NA,development time,mean duration of life stage,4.96,days,0.18,0.18,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Queensland Australia (various locations),field (F5 gen.),15/04/2008,4,decimal,-18.31,145.705,Aedes aegypti,Yellow fever mosquito,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Richardson et al. 2011. Thermal sensitivity of Aedes aegypti from Australia: empirical data and prediction of effects on distribution. J. Med. Entomol. 48: 914-923,10.1603/ME10204,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=60),TRUE,01/01/2011
NA,NA,development time,mean duration of life stage,3.53,days,0.12,0.12,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Queensland Australia (various locations),field (F5 gen.),15/04/2008,4,decimal,-18.31,145.705,Aedes aegypti,Yellow fever mosquito,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Richardson et al. 2011. Thermal sensitivity of Aedes aegypti from Australia: empirical data and prediction of effects on distribution. J. Med. Entomol. 48: 914-923,10.1603/ME10204,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=60),TRUE,01/01/2011
NA,NA,hatching time,mean duration for eggs to hatch after exposure to water,1,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments. interactor1number is the number of individuals at the start of the experiment,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,3.23,days,0.12,0.12,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Queensland Australia (various locations),field (F5 gen.),15/04/2008,4,decimal,-18.31,145.705,Aedes aegypti,Yellow fever mosquito,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,37,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Richardson et al. 2011. Thermal sensitivity of Aedes aegypti from Australia: empirical data and prediction of effects on distribution. J. Med. Entomol. 48: 914-923,10.1603/ME10204,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=60),TRUE,01/01/2011
NA,NA,development time,mean duration of life stage,3.77,days,0.18,0.18,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Queensland Australia (various locations),field (F5 gen.),15/04/2008,4,decimal,-18.31,145.705,Aedes aegypti,Yellow fever mosquito,NA,NA,38,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,40,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Richardson et al. 2011. Thermal sensitivity of Aedes aegypti from Australia: empirical data and prediction of effects on distribution. J. Med. Entomol. 48: 914-923,10.1603/ME10204,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=60),TRUE,01/01/2011
NA,NA,development time,mean duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Queensland Australia (various locations),field (F5 gen.),15/04/2008,4,decimal,-18.31,145.705,Aedes aegypti,Yellow fever mosquito,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,12,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Richardson et al. 2011. Thermal sensitivity of Aedes aegypti from Australia: empirical data and prediction of effects on distribution. J. Med. Entomol. 48: 914-923,10.1603/ME10204,NA,NA,Paul Huxley,phuxly@gmail.com,trait value set to zero because mortality was complete at this temperature. interactor1number is the number of individuals that did not survive life stage from the initial number of individuals at the start of the experiment (n=60),TRUE,01/01/2011
NA,NA,development time,mean duration of life stage,22.31,days,0.42,0.42,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Queensland Australia (various locations),field (F5 gen.),15/04/2008,4,decimal,-18.31,145.705,Aedes aegypti,Yellow fever mosquito,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Richardson et al. 2011. Thermal sensitivity of Aedes aegypti from Australia: empirical data and prediction of effects on distribution. J. Med. Entomol. 48: 914-923,10.1603/ME10204,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=60),TRUE,01/01/2011
NA,NA,development time,mean duration of life stage,7.6,days,0.24,0.24,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Queensland Australia (various locations),field (F5 gen.),15/04/2008,4,decimal,-18.31,145.705,Aedes aegypti,Yellow fever mosquito,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Richardson et al. 2011. Thermal sensitivity of Aedes aegypti from Australia: empirical data and prediction of effects on distribution. J. Med. Entomol. 48: 914-923,10.1603/ME10204,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=60),TRUE,01/01/2011
NA,NA,development time,mean duration of life stage,5.38,days,0.18,0.18,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Queensland Australia (various locations),field (F5 gen.),15/04/2008,4,decimal,-18.31,145.705,Aedes aegypti,Yellow fever mosquito,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Richardson et al. 2011. Thermal sensitivity of Aedes aegypti from Australia: empirical data and prediction of effects on distribution. J. Med. Entomol. 48: 914-923,10.1603/ME10204,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=60),TRUE,01/01/2011
NA,NA,survival,mean percentage surviving life stage,86.7,percent,1,1,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 and L2,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments,TRUE,01/01/2024
NA,NA,survival,mean percentage surviving life stage,83.1,percent,1,1,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments,TRUE,01/01/2024
NA,NA,survival,mean percentage surviving life stage,81,percent,1,1,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments,TRUE,01/01/2024
NA,NA,survival,mean percentage surviving life stage,77.1,percent,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,77,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field,TRUE,01/01/2024
NA,NA,survival,mean percentage surviving life stage,93.3,percent,1.9,1.9,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 and L2,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments,TRUE,01/01/2024
NA,NA,survival,mean percentage surviving life stage,91.4,percent,1.7,1.7,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments,TRUE,01/01/2024
NA,NA,survival,mean percentage surviving life stage,90.5,percent,2.5,2.5,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments,TRUE,01/01/2024
NA,NA,survival,mean percentage surviving life stage,89.5,percent,2.5,2.5,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,90,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field,TRUE,01/01/2024
NA,NA,survival,mean percentage surviving life stage,89.5,percent,1,1,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 and L2,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments,TRUE,01/01/2024
NA,NA,survival,mean percentage surviving life stage,86.7,percent,1,1,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments,TRUE,01/01/2024
NA,NA,survival,mean percentage surviving life stage,84.7,percent,1.9,1.9,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments,TRUE,01/01/2024
NA,NA,survival,mean percentage surviving life stage,82.9,percent,1.7,1.7,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,83,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field,TRUE,01/01/2024
NA,NA,survival,mean percentage surviving life stage,72.4,percent,1,1,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 and L2,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments,TRUE,01/01/2024
NA,NA,survival,mean percentage surviving life stage,68.6,percent,1.7,1.7,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments,TRUE,01/01/2024
NA,NA,survival,mean percentage surviving life stage,63.8,percent,1,1,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments,TRUE,01/01/2024
NA,NA,survival,mean percentage surviving life stage,59.1,percent,1,1,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,59,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field,TRUE,01/01/2024
NA,NA,survival,mean percentage surviving life stage,88.6,percent,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 and L2,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments,TRUE,01/01/2024
NA,NA,survival,mean percentage surviving life stage,86.7,percent,1,1,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments,TRUE,01/01/2024
NA,NA,survival,mean percentage surviving life stage,83.8,percent,1,1,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments,TRUE,01/01/2024
NA,NA,survival,mean percentage surviving life stage,80,percent,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,80,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field,TRUE,01/01/2024
NA,NA,survival,mean percentage surviving life stage,93.3,percent,1,1,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 and L2,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments,TRUE,01/01/2024
NA,NA,survival,mean percentage surviving life stage,92.4,percent,1.9,1.9,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments,TRUE,01/01/2024
NA,NA,survival,mean percentage surviving life stage,92.4,percent,1.9,1.9,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments,TRUE,01/01/2024
NA,NA,survival,mean percentage surviving life stage,91.4,percent,1.7,1.7,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,91,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field,TRUE,01/01/2024
NA,NA,survival,mean percentage surviving life stage,90.5,percent,1,1,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 and L2,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments,TRUE,01/01/2024
NA,NA,survival,mean percentage surviving life stage,89.5,percent,1.9,1.9,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments,TRUE,01/01/2024
NA,NA,survival,mean percentage surviving life stage,88.6,percent,2.9,2.9,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments,TRUE,01/01/2024
NA,NA,survival,mean percentage surviving life stage,86.7,percent,1.9,1.9,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,87,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field,TRUE,01/01/2024
NA,NA,survival,mean percentage surviving life stage,74.3,percent,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 and L2,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments,TRUE,01/01/2024
NA,NA,survival,mean percentage surviving life stage,70.5,percent,1,1,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments,TRUE,01/01/2024
NA,NA,survival,mean percentage surviving life stage,66.7,percent,1,1,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments,TRUE,01/01/2024
NA,NA,survival,mean percentage surviving life stage,61.9,percent,2.5,2.5,se,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,62,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field,TRUE,01/01/2024
NA,NA,body size,mean wing length,1.779,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments,TRUE,01/01/2024
NA,NA,body size,mean wing length,1.696,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments,TRUE,01/01/2024
NA,NA,body size,mean wing length,1.566,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments,TRUE,01/01/2024
NA,NA,body size,mean wing length,1.441,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments,TRUE,01/01/2024
NA,NA,body size,mean wing length,1.726,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments,TRUE,01/01/2024
NA,NA,body size,mean wing length,1.645,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments,TRUE,01/01/2024
NA,NA,body size,mean wing length,1.523,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments,TRUE,01/01/2024
NA,NA,body size,mean wing length,1.407,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments,TRUE,01/01/2024
NA,NA,body size,mean wing length,1.467,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments,TRUE,01/01/2024
NA,NA,body size,mean wing length,1.395,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments,TRUE,01/01/2024
NA,NA,body size,mean wing length,1.264,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments,TRUE,01/01/2024
NA,NA,body size,mean wing length,1.176,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Kolkata West Bengala India,field (F4),01/07/2021,4,decimal,22.508889,88.332778,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments,TRUE,01/01/2024
NA,NA,body size,mean wing length,1.446,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments,TRUE,01/01/2024
NA,NA,body size,mean wing length,1.356,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments,TRUE,01/01/2024
NA,NA,body size,mean wing length,1.229,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments,TRUE,01/01/2024
NA,NA,body size,mean wing length,1.153,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,26,NA,Celsius,12,hours,relative humidity,relative humidity,65,%,NA,NA,NA,NA,NA,Jodhpur Rajasthan India,field (F4),01/09/2021,4,decimal,26.22,73.04,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,De et al. 2024. Effects of temperature on the development of Aedes albopictus (Diptera Culicidae) from desert and costal regions of India. Int J Trop Insect Sci,10.1007/s42690-024-01291-9,NA,NA,Daniele Da Re,dare.daniele@gmail.com,larvae collected in the field. eggs from F4 were used for the experiments,TRUE,01/01/2024
DEN001,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,486,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN002,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,757,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN003,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1963,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN004,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,857,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN005,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1048,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN006,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1398,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN007,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1452,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN008,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1523,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN009,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1621,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN010,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,2104,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN011,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,771,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN012,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,799,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN013,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1035,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN014,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1070,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN015,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1144,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN016,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1267,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN017,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1490,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN018,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1529,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN019,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1588,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN020,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1685,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN021,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,262,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN022,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,324,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN023,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,410,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN024,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,608,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN025,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,770,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN026,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,927,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN027,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1038,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN028,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1101,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN029,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1137,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN030,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1622,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN031,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,437,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN032,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1693,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN033,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1312,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN034,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1331,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN035,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1423,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN036,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1562,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN037,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1675,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN038,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,2040,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN039,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,2158,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN040,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,2236,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN041,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,708,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN042,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,890,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN043,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,278,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN044,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,363,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN045,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,404,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN046,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,513,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN047,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,647,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN048,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,729,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN049,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,782,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN050,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,800,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN051,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,232,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN052,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,280,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN053,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,628,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN054,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,655,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN055,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,667,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN056,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,826,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN057,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1054,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN058,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1215,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN059,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1521,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN060,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1675,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Acapulco Mexico,field,NA,NA,decimal,16.863611,-99.8825,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN061,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,202,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN062,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,247,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN063,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,345,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN064,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,428,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN065,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,558,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN066,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,604,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN067,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1231,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN068,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1265,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN069,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1676,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN070,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1852,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN071,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,394,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN072,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,488,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN073,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,546,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN074,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,635,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN075,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1327,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN076,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,741,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN077,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,753,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN078,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,890,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN079,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1095,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN080,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1174,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN081,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,137,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN082,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,304,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN083,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,439,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN084,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,473,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN085,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,632,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN086,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,733,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN087,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,790,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN088,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1240,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN089,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1574,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN090,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1827,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN091,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,546,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN092,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,219,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN093,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,741,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN094,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,816,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN095,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1057,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN096,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1387,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN097,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1598,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN098,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1662,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN099,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1754,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN100,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1980,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN101,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,300,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN102,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,346,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN103,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,381,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN104,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,420,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN105,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,472,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN106,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,555,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN107,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,850,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN108,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1106,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN109,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1176,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN110,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1230,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN111,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,204,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN112,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,523,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN113,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,703,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN114,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,919,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN115,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1003,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN116,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1123,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN117,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1233,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN118,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1379,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN119,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1481,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN120,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1597,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Cabo San Lucas Mexico,field,NA,NA,decimal,22.890533,-109.91674,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN121,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,324,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN122,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,422,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN123,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,847,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN124,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,873,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN125,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,2253,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN126,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1218,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN127,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1703,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN128,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,2224,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN129,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,2688,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN130,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,2772,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN131,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,2044,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN132,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,538,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN133,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1124,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN134,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1404,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN135,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1550,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN136,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1769,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN137,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1864,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN138,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,2200,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN139,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,2324,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN140,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,2627,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN141,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,537,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN142,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,766,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN143,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,848,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN144,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,907,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN145,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1027,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN146,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1153,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN147,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,2613,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN148,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,2042,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN149,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,2585,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN150,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,2567,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN151,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,432,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN152,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,544,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN153,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,603,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN154,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,908,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN155,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,987,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN156,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1054,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN157,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1280,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN158,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1743,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN159,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,2160,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN160,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,2284,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN161,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,390,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN162,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,565,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN163,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,630,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN164,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,663,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN165,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1500,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN166,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1325,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN167,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1738,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN168,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1866,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN169,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,2042,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN170,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,2388,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN171,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,334,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN172,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,382,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN173,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,489,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN174,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,707,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN175,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,868,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN176,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1052,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN177,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1838,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN178,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1924,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN179,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1964,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN180,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,2045,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Jojutla Mexico,field,NA,NA,decimal,18.61472,-99.18028,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN181,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,888,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN182,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,491,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN183,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,662,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN184,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1419,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN185,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1561,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN186,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1858,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN187,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1882,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN188,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,2080,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN189,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,2532,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN190,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,2626,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN191,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1596,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN192,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,470,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN193,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1260,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN194,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,823,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN195,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,858,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN196,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,992,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN197,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1099,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN198,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1229,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN199,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1815,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN200,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,2392,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN201,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,238,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN202,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,294,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN203,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,495,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN204,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,623,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN205,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,885,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN206,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,950,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN207,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1506,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN208,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1754,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN209,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1996,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN210,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,2069,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN211,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,241,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN212,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,446,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN213,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,467,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN214,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,862,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN215,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,894,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN216,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1118,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN217,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1315,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN218,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1475,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN219,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1596,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN220,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1944,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN221,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,263,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN222,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,588,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN223,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1002,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN224,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,898,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN225,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1207,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN226,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1295,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN227,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1636,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN228,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1906,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN229,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1925,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN230,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,2179,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN231,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,136,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN232,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,346,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN233,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,407,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN234,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,723,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN235,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,899,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN236,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1192,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN237,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1735,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN238,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1862,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN239,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,2220,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN240,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,2294,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Juarez Mexico,field,NA,NA,decimal,31.738581,-106.487015,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN241,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,122,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN242,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,226,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN243,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,246,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN244,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,271,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN245,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,318,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN246,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,338,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN247,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,447,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN248,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1380,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN249,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1488,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN250,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1530,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN251,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,170,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN252,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,200,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN253,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,227,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN254,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,257,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN255,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,369,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN256,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,384,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN257,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,506,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN258,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,876,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN259,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1004,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN260,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1160,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN261,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,170,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN262,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,250,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN263,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,315,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN264,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,323,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN265,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,334,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN266,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,348,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN267,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,615,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN268,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,720,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN269,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,733,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN270,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,2093,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN271,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,150,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN272,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,163,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN273,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,173,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN274,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,293,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN275,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,444,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN276,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,757,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN277,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,920,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN278,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1020,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN279,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1088,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN280,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1512,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN281,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,176,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN282,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,307,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN283,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,343,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN284,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,391,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN285,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,501,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN286,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,520,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN287,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,961,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN288,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1057,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN289,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1295,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN290,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1407,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN291,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,131,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN292,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,175,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN293,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,190,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN294,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,381,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN295,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,472,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN296,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,554,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN297,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,683,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN298,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1223,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN299,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1420,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN300,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1698,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Pennsylvania State University USA,colony,NA,NA,decimal,40.798333,-77.86,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Rockefeller strain. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN301,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,255,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN302,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,313,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN303,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,431,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN304,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,465,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN305,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,555,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN306,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,773,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN307,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1663,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN308,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1700,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN309,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1862,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN310,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,2225,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 1 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN311,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,213,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN312,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,241,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN313,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,270,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN314,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,521,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN315,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,800,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN316,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,941,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN317,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1413,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN318,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1505,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN319,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1571,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN320,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1666,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 2 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN321,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,124,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN322,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,137,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN323,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,168,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN324,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,205,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN325,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,470,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN326,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,648,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN327,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,780,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN328,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,815,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN329,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1397,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN330,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1522,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 3 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN331,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1264,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN332,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,237,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN333,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,255,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN334,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,431,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN335,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,495,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN336,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,539,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN337,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,597,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN338,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,698,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN339,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1245,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN340,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1092,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 4 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN341,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,125,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN342,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,240,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN343,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,270,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN344,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,376,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN345,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,582,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN346,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,867,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN347,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1207,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN348,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1488,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN349,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1574,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN350,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1780,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 5 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN351,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1485,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN352,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,855,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN353,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,927,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN354,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1032,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN355,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1087,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN356,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1130,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN357,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1607,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN358,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1768,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN359,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,1961,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
DEN360,NA,knockdown time,individual-level duration to knockdown after exposure to extreme temperature,2198,seconds,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,27,NA,Celsius,12,hours,relative humidity,relative humidity,80,%,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: Mexico_Knockdown_Data.csv,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,eggs reared to F1. replicate number 6 (i.e. 10 individuals per replicate six replicates in total),TRUE,01/01/2023
NA,NA,development time,mean duration of life stage,5.26,days,0.24,0.24,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Queensland Australia (various locations),field (F5 gen.),15/04/2008,4,decimal,-18.31,145.705,Aedes aegypti,Yellow fever mosquito,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,37,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Richardson et al. 2011. Thermal sensitivity of Aedes aegypti from Australia: empirical data and prediction of effects on distribution. J. Med. Entomol. 48: 914-923,10.1603/ME10204,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=60),TRUE,01/01/2011
NA,NA,development time,mean duration of life stage,6.28,days,0.18,0.18,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Queensland Australia (various locations),field (F5 gen.),15/04/2008,4,decimal,-18.31,145.705,Aedes aegypti,Yellow fever mosquito,NA,NA,38,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,40,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Richardson et al. 2011. Thermal sensitivity of Aedes aegypti from Australia: empirical data and prediction of effects on distribution. J. Med. Entomol. 48: 914-923,10.1603/ME10204,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=60),TRUE,01/01/2011
NA,RAT011,development time,mean duration of life stage,0,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,trait value was set to zero because complete juvenile mortality occured at this temperature. interactor1number is the number of individuals that did not survive life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT011,development time,mean duration of life stage,1,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT011,development time,mean duration of life stage,1,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT011,development time,mean duration of life stage,1,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT011,development time,mean duration of life stage,1,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT011,development time,mean duration of life stage,1,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,40,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT011,development time,mean duration of life stage,5.52,days,0.16,0.16,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT011,development time,mean duration of life stage,3.14,days,0.05,0.05,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT011,development time,mean duration of life stage,3,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT011,development time,mean duration of life stage,2.44,days,0.08,0.08,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT011,development time,mean duration of life stage,1.07,days,0.05,0.05,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,46,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,40,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT011,development time,mean duration of life stage,2.83,days,0.31,0.31,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT011,development time,mean duration of life stage,1.66,days,0.16,0.16,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,47,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT011,development time,mean duration of life stage,1.15,days,0.06,0.06,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,41,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT011,development time,mean duration of life stage,1.19,days,0.06,0.06,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,49,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT011,development time,mean duration of life stage,2.83,days,0.17,0.17,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,40,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT011,development time,mean duration of life stage,10.77,days,0.25,0.25,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,44,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT011,development time,mean duration of life stage,2.95,days,0.12,0.12,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,46,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT011,development time,mean duration of life stage,2.51,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,41,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT011,development time,mean duration of life stage,2.09,days,0.09,0.09,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT011,development time,mean duration of life stage,5.23,days,0.32,0.32,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT011,development time,mean duration of life stage,3.58,days,0.77,0.77,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,43,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT011,development time,mean duration of life stage,2.37,days,0.08,0.08,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,36,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT011,development time,mean duration of life stage,1.81,days,0.08,0.08,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,43,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT011,development time,mean duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did not survive life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT011,development time,mean duration of life stage,23.31,days,0.27,0.27,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT011,development time,mean duration of life stage,13.14,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,37,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT011,development time,mean duration of life stage,11.11,days,0.15,0.15,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT011,development time,mean duration of life stage,9.6,days,0.13,0.13,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,37,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT011,development time,mean duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Selangor Malaysia,colony (F41 gen),NA,0,decimal,3.333333,101.5,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,40,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did not survive life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT003,development time,mean duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,trait value was set to zero because complete juvenile mortality occured at this temperature. interactor1number is the number of individuals that did not survive life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT003,development time,mean duration of life stage,1,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT003,development time,mean duration of life stage,1,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT003,development time,mean duration of life stage,1,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT003,development time,mean duration of life stage,1,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT003,development time,mean duration of life stage,1,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,40,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT003,development time,mean duration of life stage,5.51,days,0.31,0.31,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,45,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT003,development time,mean duration of life stage,3.06,days,0.33,0.33,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT003,development time,mean duration of life stage,3,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,49,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT003,development time,mean duration of life stage,2.44,days,0.08,0.08,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT003,development time,mean duration of life stage,1,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,46,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,40,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT003,development time,mean duration of life stage,2.81,days,0.28,0.28,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,42,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT003,development time,mean duration of life stage,1.58,days,0.17,0.17,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT003,development time,mean duration of life stage,1.1,days,0.05,0.05,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT003,development time,mean duration of life stage,1.18,days,0.07,0.07,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,46,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT003,development time,mean duration of life stage,4,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,40,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT003,development time,mean duration of life stage,9.45,days,0.25,0.25,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT003,development time,mean duration of life stage,3.34,days,0.12,0.12,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT003,development time,mean duration of life stage,2.74,days,0.09,0.09,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,47,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT003,development time,mean duration of life stage,2.18,days,0.17,0.17,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT003,development time,mean duration of life stage,4.7,days,0.13,0.13,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT003,development time,mean duration of life stage,3.4,days,0.08,0.08,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT003,development time,mean duration of life stage,2.15,days,0.05,0.05,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,47,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT003,development time,mean duration of life stage,1.62,days,0.09,0.09,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT003,development time,mean duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT003,development time,mean duration of life stage,22.5,days,0.89,0.89,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT003,development time,mean duration of life stage,13.13,days,0.07,0.07,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,44,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT003,development time,mean duration of life stage,11,days,0.11,0.11,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,43,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,30,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT003,development time,mean duration of life stage,9.53,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,35,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,RAT003,development time,mean duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Keramat Malaysia,field (F1-F2 gen),NA,0,decimal,3.167854,101.724484,Aedes albopictus,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,40,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Rozilawati et al. 2016. Effect of temperature on the immature development of Aedes albopictus Skuse. Southeast Asian Journal of Tropical Medicine and Public Health. 47:4,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals did not survive life stage from the initial number of individuals at the start of the experiment (n=50),TRUE,01/01/2016
NA,PHX321,development time,mean duration of life stage,7.67,days,0.14,0.14,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,colony,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,318,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX321,development time,mean duration of life stage,2.67,days,0.11,0.11,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,colony,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,337,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX321,development time,mean duration of life stage,2.74,days,0.12,0.12,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,colony,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,284,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX321,development time,mean duration of life stage,0.96,days,0.03,0.03,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,colony,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,344,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX321,development time,mean duration of life stage,1.18,days,1.07,1.07,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,colony,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,284,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX321,development time,mean duration of life stage,1.42,days,0.03,0.03,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,colony,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,254,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX321,development time,mean duration of life stage,8.88,days,0.4,0.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,colony,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,190,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX321,development time,mean duration of life stage,1.43,days,0.11,0.11,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,colony,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,301,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX321,development time,mean duration of life stage,1.35,days,0.05,0.05,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,colony,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,242,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX321,development time,mean duration of life stage,0.77,days,0.03,0.03,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,colony,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,291,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX321,development time,mean duration of life stage,0.89,days,0.05,0.05,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,colony,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX321,development time,mean duration of life stage,1.31,days,0.04,0.04,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,colony,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,211,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX321,development time,mean duration of life stage,14.97,days,0.83,0.83,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,colony,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,93,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX321,development time,mean duration of life stage,1.62,days,0.05,0.05,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,colony,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,262,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX321,development time,mean duration of life stage,1.37,days,0.06,0.06,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,colony,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,172,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX321,development time,mean duration of life stage,0.96,days,0.03,0.03,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,colony,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,251,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX321,development time,mean duration of life stage,0.98,days,0.03,0.03,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,colony,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,201,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX321,development time,mean duration of life stage,0.84,days,0.04,0.04,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,colony,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,167,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX321,development time,mean duration of life stage,15.31,days,1.22,1.22,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,colony,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX321,development time,mean duration of life stage,3.59,days,0.07,0.07,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,colony,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,221,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX321,development time,mean duration of life stage,3.15,days,0.06,0.06,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,colony,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,139,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX321,development time,mean duration of life stage,1.78,days,0.03,0.03,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,colony,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,207,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX321,development time,mean duration of life stage,1.94,days,0.04,0.04,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,colony,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,161,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX321,development time,mean duration of life stage,1.49,days,0.05,0.05,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,colony,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,130,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX321,development time,mean duration of life stage,8.49,days,1.13,1.13,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,colony,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX321,development time,mean duration of life stage,3.11,days,0.07,0.07,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,colony,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,162,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX321,development time,mean duration of life stage,3.03,days,0.04,0.04,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,colony,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX321,development time,mean duration of life stage,1.79,days,0.03,0.03,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,colony,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,142,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX321,development time,mean duration of life stage,1.82,days,0.04,0.04,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,colony,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,127,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX321,development time,mean duration of life stage,1.09,days,0.03,0.03,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,colony,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,97,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX321,development time,mean duration of life stage,55.33,days,3.55,3.55,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,colony,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX321,development time,mean duration of life stage,12.43,days,0.19,0.19,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,colony,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,162,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX321,development time,mean duration of life stage,11.72,days,0.11,0.11,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,colony,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX321,development time,mean duration of life stage,6.36,days,0.04,0.04,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,colony,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,142,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX321,development time,mean duration of life stage,6.86,days,0.04,0.04,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,colony,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,127,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,PHX321,development time,mean duration of life stage,6.15,days,0.05,0.05,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Raleigh North Carolina,colony,NA,0,decimal,35.766667,-78.633333,Aedes aegypti,Yellow fever mosquito,NA,NA,97,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Rueda et al. 1990. Temperature-dependent development and survival rates of Culex quinquefasciatus and Aedes aegypti (Diptera: Culicidae). J. Med. Entomol. 27: 892-898,10.1093/jmedent/27.5.892,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1990
NA,NA,development time,mean duration of life stage,85.87,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,31.35,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,26.72,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,25.44,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,21.48,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,22.38,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,34.88,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,57.9,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,19.07,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,16.39,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,12.54,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,12.43,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,15.29,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,26.9,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,65.28,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,22.62,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,17.92,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,16.82,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,14.68,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,14.31,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,32.03,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,144.36,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,48.37,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,36.16,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,34.31,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,33.58,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,38.97,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,0,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,trait value set to zero because no individuals survived to complete this life stage at this temperature,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,160.17,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,56.35,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,41.74,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,36.72,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,34.38,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,32.15,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,0,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,trait value set to zero because no individuals survived to complete this life stage at this temperature,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,513.58,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,177.76,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,23,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,138.93,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,22,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,125.83,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,23,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,116.55,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,123.1,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,0,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26). trait value is set to zero because juvenile mortality was complete at this temperature,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,88.42,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,29.22,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,26.63,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,21.28,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),91,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,182,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),92,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,184,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),90,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),81.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,163,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),83,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,166,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),76.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,153,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),88.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,177,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),84.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,169,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),81,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,162,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),75.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,151,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),74,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,148,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),70,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,140,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),63.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,127,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),71.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,143,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),70.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,141,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),77,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,154,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),76,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,152,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),77.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,155,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),82.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,165,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),88,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,176,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),96,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,192,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),69,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,138,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),88,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,176,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),93,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,186,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),88,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,176,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),87.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,175,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),77,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,154,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),65,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,130,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),85.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,171,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),71,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,142,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),85.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,171,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),71.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,143,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),80.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,161,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),74.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,149,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),81.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,163,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),86,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,172,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),94.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,189,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),99,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,198,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),90,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),93,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,186,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),86.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,173,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),92,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,184,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),92,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,184,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),93.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,187,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),96,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,192,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),96,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,192,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),83,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,166,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),95,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,190,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),98,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,196,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),97.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,195,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),93.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,187,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),98.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,197,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),84.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,169,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),94,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,188,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),92.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,185,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),95,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,190,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),88.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,177,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),82.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,165,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),87,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,174,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),91,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,182,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),95,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,190,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),93.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,187,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),85.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,171,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),77.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,155,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),78,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,156,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),93,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,186,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),92.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,185,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),95,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,190,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),92,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,184,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),91.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,183,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),86,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,172,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),84.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,169,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),89.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,179,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),91,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,182,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),91,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,182,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),88,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,176,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),83.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,167,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),91,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,182,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),85.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,171,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),90,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),68,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,136,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),88.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,177,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),74,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,148,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),89.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,179,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),93.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,187,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),86.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,173,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),89.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,179,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),96.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,193,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),86,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,172,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),80,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,160,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),58.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,117,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),88,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,176,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),82.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,165,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),81,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,162,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),72.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,145,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),86,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,172,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),90.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,181,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),94.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,189,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),90,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),82,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,164,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),74,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,148,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),76.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,153,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),91.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,183,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),81.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,163,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),86.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,173,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),87,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,174,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),67.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,135,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),59,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,118,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),74.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,149,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),53,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,106,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),82,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,164,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),46,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,92,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),63,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,126,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),15.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,31,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),59,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,118,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),78,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,156,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),70.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,141,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),73,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,146,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),74,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,148,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),47,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,94,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),44.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,89,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),73.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,147,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),72,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,144,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),67.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,135,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),55.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,111,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),21,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,42,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),16,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,32,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),16,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,32,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),29.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,59,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),27,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,54,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),32,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,64,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),39,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,78,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),42.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,85,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),26,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,52,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),1.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),24,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),15.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,31,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),9.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),49,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,98,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),45,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,90,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),34.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,69,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,37,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,37,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,37,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,37,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,37,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,37,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,37,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,37,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,37,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,37,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,37,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,37,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,37,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,37,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,37,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,37,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,37,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,37,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate A. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate B. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
NA,NA,survival,replicate-level percentage surviving life stage as a function of temperature and selection pressure (see secondstressordef),0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_LarvalDevelopmentSurvival,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,replicate C. interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2023
DNFC001,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),48,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC002,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),21,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC003,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC004,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),68,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC005,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),9,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC006,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC007,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),31,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC008,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),8,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC009,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),24,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC010,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),4,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC011,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),12,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC012,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),1,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC013,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),15,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC014,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),59,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC015,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),43,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC016,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC017,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),77,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC018,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),31,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC019,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),23,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC020,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),41,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC021,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),57,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC022,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),35,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC023,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),52,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC024,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),6,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC025,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC026,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),20,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC027,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),22,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC028,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),11,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC029,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),26,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC030,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),37,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC031,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),28,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC032,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),96,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC033,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),7,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC034,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),11,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC035,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),1,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC036,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),38,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC037,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),40,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC038,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),68,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC039,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),30,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC040,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),31,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC041,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),26,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC042,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),10,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC043,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC044,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),32,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC045,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),6,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC046,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),43,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC047,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),48,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC048,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),82,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC049,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),17,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC050,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),35,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC051,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),76,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC052,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),84,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC053,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),77,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC054,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),82,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC055,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),84,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC056,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),49,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC057,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),10,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC058,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),84,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC059,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),7,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC060,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),20,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC061,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),43,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC062,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),41,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC063,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),96,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC064,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),66,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC065,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),4,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC066,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),55,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC067,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),92,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC068,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),52,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC069,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC070,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),47,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC071,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),37,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC072,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),14,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC073,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),37,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC074,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),45,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC075,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),15,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC076,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC077,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),23,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC078,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),23,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC079,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),18,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC080,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),27,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC081,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC082,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),19,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC083,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),76,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC084,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),17,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC085,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),55,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC086,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),21,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC087,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),77,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC088,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),26,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC089,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),69,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC090,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),100,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC091,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),32,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC092,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),13,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC093,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),1,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC094,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),65,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC095,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),84,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC096,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),66,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC097,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC098,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC099,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),1,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC100,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),4,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC101,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),15,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC102,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),9,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC103,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),53,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC104,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),12,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC105,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),84,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC106,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),29,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC107,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),26,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC108,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),6,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC109,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),44,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC110,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),14,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC111,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),4,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC112,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),16,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC113,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),1,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC114,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),8,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC115,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),74,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC116,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),94,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC117,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),16,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC118,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),4,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC119,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),4,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC120,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),26,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC121,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),26,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC122,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),57,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC123,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),52,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC124,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),100,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC125,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),83,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC126,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),16,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC127,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),60,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC128,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),92,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC129,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),86,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC130,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),71,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC131,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),31,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC132,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),65,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC133,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),27,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC134,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),82,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC135,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),14,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC136,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),69,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC137,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),89,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC138,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC139,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),77,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC140,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),82,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC141,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),77,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC142,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),7,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC143,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),86,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC144,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),11,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC145,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),7,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC146,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),55,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC147,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),16,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC148,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),94,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC149,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),20,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC150,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),66,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC151,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),13,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC152,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),69,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC153,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),98,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC154,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),36,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC155,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),51,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC156,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),13,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC157,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),73,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC158,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC159,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),50,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC160,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),21,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC161,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),88,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC162,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),63,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC163,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),23,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC164,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),7,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC165,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),41,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC166,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),61,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC167,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),17,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC168,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),60,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC169,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),83,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC170,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),51,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC171,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),13,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC172,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),6,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC173,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC174,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),9,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC175,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),41,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC176,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),73,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC177,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),27,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC178,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),69,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC179,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),16,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC180,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),92,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC181,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC182,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),95,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC183,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),76,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC184,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),94,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC185,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),83,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC186,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),84,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC187,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),74,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC188,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),12,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC189,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC190,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),12,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC191,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),9,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC192,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC193,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),10,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC194,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),44,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC195,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),99,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC196,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),81,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC197,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),82,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC198,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),104,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC199,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),87,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC200,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),82,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC201,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),117,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC202,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),19,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC203,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),112,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC204,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),95,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC205,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),77,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC206,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),93,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC207,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),83,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC208,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),80,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC209,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),70,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC210,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),81,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC211,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),89,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC212,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),82,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC213,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),84,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC214,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),88,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC215,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),81,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC216,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),70,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC217,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),69,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC218,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),91,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC219,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),101,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC220,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),9,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC221,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),114,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC222,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),104,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC223,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),23,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC224,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),88,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC225,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),56,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC226,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),4,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC227,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),4,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC228,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),77,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC229,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),12,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC230,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),70,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC231,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),92,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC232,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),108,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC233,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),81,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC234,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),77,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC235,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),77,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC236,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),32,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC237,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),93,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC238,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),66,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC239,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),70,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC240,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC241,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),83,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC242,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),72,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC243,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC244,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),81,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC245,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),14,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC246,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),49,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC247,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC248,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),37,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC249,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),20,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC250,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),60,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC251,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),54,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC252,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),111,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC253,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),6,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC254,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),19,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC255,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),58,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC256,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),56,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC257,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),31,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC258,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),72,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC259,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),35,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC260,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),20,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC261,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),1,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC262,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),8,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC263,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),74,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC264,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),91,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC265,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),12,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC266,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),19,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC267,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),39,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC268,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),15,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC269,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),98,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC270,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),77,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC271,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),65,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC272,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),28,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC273,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),64,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC274,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),26,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC275,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),76,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC276,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),40,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC277,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),83,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC278,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC279,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),62,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC280,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),15,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC281,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),64,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC282,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),86,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC283,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),78,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC284,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),40,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC285,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),80,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC286,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),85,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC287,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),104,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC288,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),73,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC289,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),101,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC290,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC291,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),97,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC292,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),92,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC293,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),101,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC294,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),73,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC295,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),94,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC296,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),79,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC297,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),106,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC298,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),92,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC299,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),93,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC300,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),80,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC301,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),76,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC302,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC303,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),56,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC304,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),58,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC305,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),6,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC306,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),11,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC307,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),79,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC308,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),36,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC309,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC310,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),90,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC311,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),41,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC312,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),48,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC313,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),46,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC314,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),16,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC315,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),97,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC316,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),65,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC317,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),22,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC318,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),28,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC319,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),115,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC320,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),105,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC321,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),27,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC322,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),85,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC323,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),92,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC324,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC325,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),60,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC326,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),13,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC327,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),32,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC328,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),37,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC329,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),89,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC330,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),18,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC331,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),63,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC332,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),55,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC333,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),81,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC334,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),91,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC335,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),100,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC336,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),38,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC337,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),50,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC338,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),24,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC339,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),91,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC340,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),95,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC341,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),28,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC342,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),71,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC343,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),53,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC344,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),39,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC345,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),83,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC346,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),94,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC347,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),60,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC348,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),113,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC349,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),108,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC350,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),77,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC351,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),71,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC352,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),71,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC353,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),64,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC354,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),58,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC355,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),16,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC356,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC357,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),87,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC358,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),83,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC359,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),93,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC360,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),56,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC361,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),83,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC362,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),71,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC363,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),38,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC364,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),89,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC365,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),62,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC366,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),56,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC367,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),22,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC368,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),39,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC369,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),24,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC370,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),94,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC371,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),112,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC372,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC373,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),83,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC374,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),23,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC375,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),42,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC376,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),44,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC377,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),102,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC378,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),71,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC379,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),57,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC380,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),89,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC381,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),0,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC382,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),84,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC383,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC384,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),63,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC385,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),23,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC386,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),93,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC387,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),52,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC388,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC389,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),84,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC390,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),77,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC391,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),60,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC392,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),69,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC393,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),99,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC394,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),17,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC395,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),4,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC396,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),85,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC397,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),108,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC398,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),84,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC399,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),65,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC400,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),9,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC401,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),53,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC402,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC403,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),77,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC404,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),103,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC405,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),72,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC406,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),68,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC407,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),74,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC408,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),76,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC409,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),80,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC410,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),6,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC411,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),22,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC412,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC413,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),88,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC414,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),77,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC415,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),102,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC416,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),29,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC417,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),85,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC418,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),50,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC419,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),81,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC420,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),96,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC421,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),77,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC422,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),80,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC423,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),30,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC424,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),83,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC425,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),47,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC426,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),42,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC427,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),89,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC428,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),95,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC429,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),83,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC430,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),83,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC431,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),51,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC432,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),48,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC433,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),11,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC434,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),92,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC435,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),52,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC436,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),49,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC437,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC438,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),55,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC439,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),106,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC440,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),70,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC441,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),59,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC442,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),107,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC443,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),80,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC444,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),141,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC445,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),76,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC446,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),84,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC447,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),92,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC448,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),88,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC449,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),102,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC450,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),59,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC451,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),90,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC452,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),47,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC453,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),78,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC454,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),86,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC455,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),46,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC456,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),102,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC457,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),13,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC458,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),83,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC459,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),59,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC460,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),97,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC461,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),84,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC462,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),71,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC463,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),89,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC464,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),17,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC465,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC466,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC467,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),113,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC468,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),79,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC469,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),89,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC470,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),29,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC471,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),77,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC472,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),11,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC473,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),71,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC474,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),77,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC475,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),39,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC476,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),64,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC477,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),49,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC478,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),91,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC479,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),107,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC480,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),48,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC481,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),50,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC482,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),12,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC483,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),30,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC484,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),76,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC485,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),12,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC486,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),44,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC487,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),6,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC488,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),48,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC489,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),61,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC490,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),44,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC491,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),27,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC492,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC493,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),83,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC494,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),60,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC495,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),24,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC496,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC497,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),69,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC498,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),39,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC499,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),7,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC500,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),15,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC501,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),57,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC502,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),70,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC503,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC504,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),6,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC505,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),34,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC506,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),77,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC507,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),68,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC508,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),69,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC509,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),66,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC510,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),42,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC511,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),53,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC512,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),57,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC513,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),10,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC514,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),57,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC515,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),62,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC516,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),17,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC517,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),72,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC518,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),71,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC519,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),52,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC520,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),51,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC521,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),66,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC522,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),43,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC523,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),7,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC524,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),80,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC525,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC526,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),56,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC527,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),84,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC528,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),71,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC529,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),64,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC530,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),36,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC531,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),35,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC532,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),61,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC533,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),43,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC534,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),80,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC535,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),30,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC536,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),29,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC537,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),54,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC538,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),57,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC539,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),42,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC540,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),56,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC541,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),71,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC542,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),32,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC543,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),52,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC544,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),71,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC545,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),65,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC546,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),49,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC547,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),49,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC548,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC549,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),56,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC550,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),63,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC551,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),43,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC552,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),26,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC553,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),62,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC554,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),73,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC555,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),47,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC556,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),22,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC557,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),50,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC558,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),61,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC559,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),45,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC560,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),15,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC561,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),68,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC562,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),11,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC563,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),61,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC564,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),65,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC565,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),42,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC566,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),28,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC567,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),93,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC568,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),63,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC569,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),72,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC570,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),62,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC571,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC572,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),82,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC573,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),97,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC574,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),37,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC575,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),1,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC576,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC577,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),74,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC578,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),22,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC579,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),45,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC580,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),57,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC581,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),1,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC582,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),59,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC583,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),8,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC584,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),72,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC585,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),65,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC586,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),1,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC587,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),41,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC588,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),53,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC589,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),55,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC590,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),24,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC591,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),64,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC592,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),52,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC593,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC594,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),13,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC595,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),8,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC596,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),55,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC597,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),20,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC598,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),46,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC599,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),58,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC600,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),56,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC601,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),16,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC602,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),21,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC603,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC604,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),50,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC605,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),39,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC606,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),37,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC607,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),30,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC608,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),21,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC609,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),52,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC610,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),42,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC611,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),35,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC612,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),12,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC613,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),7,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC614,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),43,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC615,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),16,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC616,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),45,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC617,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),64,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC618,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),34,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC619,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),29,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC620,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC621,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),16,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC622,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),35,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC623,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),30,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC624,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),44,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC625,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),49,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC626,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),84,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC627,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),43,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC628,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),35,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC629,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),34,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC630,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),65,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC631,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),54,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC632,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),14,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC633,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC634,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),45,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC635,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),6,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC636,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),47,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC637,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),14,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC638,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),19,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC639,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),49,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC640,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),43,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC641,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),31,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC642,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),43,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC643,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),40,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC644,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),11,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC645,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),39,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC646,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC647,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),8,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC648,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),42,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC649,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),48,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC650,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),11,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC651,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),37,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC652,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC653,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),47,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC654,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),34,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC655,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),52,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC656,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),65,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC657,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),49,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC658,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),60,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC659,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),24,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC660,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),49,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC661,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),102,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC662,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),1,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC663,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),38,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC664,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),55,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC665,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),57,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC666,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),50,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC667,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),28,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC668,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC669,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),13,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC670,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),31,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC671,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),77,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC672,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),61,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC673,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC674,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),95,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC675,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),79,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC676,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),60,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC677,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),56,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC678,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),60,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC679,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),60,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC680,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),80,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC681,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),71,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC682,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),84,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC683,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),1,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC684,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),78,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC685,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC686,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),47,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC687,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),21,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC688,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),74,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC689,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),21,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC690,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),22,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC691,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),63,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC692,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),49,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC693,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC694,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),6,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC695,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),28,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC696,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),30,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC697,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),22,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC698,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),53,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC699,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),1,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC700,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),39,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC701,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),53,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC702,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),11,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC703,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),58,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC704,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),26,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC705,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC706,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),37,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC707,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),18,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC708,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),23,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC709,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),100,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC710,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),27,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC711,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),23,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC712,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),88,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC713,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),59,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC714,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),18,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC715,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),6,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC716,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),54,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC717,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),1,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC718,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),41,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC719,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),48,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC720,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),20,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC721,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),52,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC722,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC723,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),21,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC724,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),64,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC725,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),58,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC726,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),31,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC727,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),59,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC728,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),45,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC729,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),42,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC730,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),66,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC731,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),54,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC732,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),87,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC733,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),64,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC734,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),44,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC735,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),27,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC736,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),12,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC737,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),41,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC738,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),47,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC739,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),29,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC740,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),28,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC741,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),29,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC742,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),50,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC743,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),11,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC744,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),68,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC745,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),56,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC746,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),24,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC747,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),23,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC748,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),80,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC749,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),39,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC750,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),21,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC751,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),43,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC752,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC753,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),11,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC754,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),80,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC755,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),52,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC756,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC757,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC758,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),10,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC759,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),71,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC760,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),49,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC761,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),34,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC762,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),79,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC763,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),55,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC764,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),23,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC765,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),45,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC766,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),15,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC767,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),70,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC768,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),42,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC769,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),55,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC770,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),21,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC771,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),20,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC772,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),17,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC773,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),27,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC774,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),27,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC775,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),18,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC776,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),59,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC777,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),35,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC778,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC779,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),20,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC780,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),57,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC781,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC782,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),27,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC783,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),52,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC784,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),44,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC785,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),40,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC786,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),47,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC787,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),19,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC788,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),10,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC789,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),61,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC790,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),23,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC791,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),40,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC792,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),36,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC793,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),45,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC794,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),62,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC795,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),76,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC796,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),60,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC797,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),52,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC798,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),49,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC799,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),7,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC800,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),59,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC801,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),31,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC802,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),50,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC803,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),12,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC804,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),24,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC805,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),60,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC806,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),10,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC807,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),74,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC808,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),12,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC809,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),41,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC810,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),66,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC811,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC812,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),27,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC813,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),35,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC814,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),28,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC815,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),34,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC816,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),8,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC817,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),12,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC818,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),19,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC819,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),11,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC820,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),9,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC821,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),17,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC822,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC823,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),19,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC824,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC825,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),28,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC826,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),61,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC827,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),48,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC828,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),39,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC829,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),4,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC830,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),32,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC831,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),32,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC832,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),14,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC833,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),31,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC834,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),60,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC835,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),29,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC836,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),32,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC837,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),13,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC838,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),4,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC839,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),45,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC840,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC841,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),12,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC842,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),11,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC843,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),11,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC844,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),8,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC845,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC846,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),24,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC847,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),24,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC848,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),17,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC849,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),1,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC850,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),4,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC851,NA,fecundity,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),4,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC001,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),4,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC002,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2.1,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC003,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),0.42,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC004,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),7.56,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC005,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),0.9,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC006,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),0.27,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC007,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3.1,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC008,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),0.73,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC009,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2.4,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC010,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),0.4,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC011,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),1.2,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC012,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),0.11,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC013,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),1.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC014,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),6.56,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC015,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),4.3,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC016,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC017,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),8.56,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC018,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2.82,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC019,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2.3,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC020,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),4.1,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC021,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),5.7,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC022,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC023,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),5.2,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC024,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),0.6,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC025,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),0.22,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC026,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),1.82,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC027,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2.2,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC028,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),1.22,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC029,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2.6,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC030,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),4.11,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC031,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3.11,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC032,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),9.6,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC033,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),0.64,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC034,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),1.1,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC035,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),0.09,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC036,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3.8,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC037,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),4,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC038,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),7.56,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC039,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC040,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2.58,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC041,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2.36,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC042,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),0.91,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC043,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),0.18,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC044,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3.2,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC045,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),0.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC046,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),4.78,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC047,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),8,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC048,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),11.71,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC049,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2.83,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC050,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),5.83,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC051,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),12.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC052,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),14,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC053,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),12.83,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC054,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),13.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC055,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),14,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC056,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),8.17,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC057,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),1.43,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC058,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),12,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC059,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),1.17,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC060,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC061,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),6.14,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC062,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),6.83,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC063,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),16,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC064,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),11,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC065,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),0.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC066,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),7.86,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC067,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),15.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC068,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),7.43,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC069,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3.57,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC070,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),6.71,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC071,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),5.29,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC072,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC073,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),6.17,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC074,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),6.43,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC075,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2.14,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC076,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3.13,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC077,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3.83,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC078,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3.83,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC079,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC080,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),4.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC081,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),0.38,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC082,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3.17,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC083,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),12.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC084,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2.43,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC085,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),9.17,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC086,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC087,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),11,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC088,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3.71,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC089,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),9.86,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC090,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),16.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC091,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),4.57,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC092,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2.17,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC093,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),0.17,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC094,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),10.83,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC095,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),14,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC096,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),9.43,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC097,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),0.63,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC098,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),4.71,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC099,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),0.14,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC100,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),0.57,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC101,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2.14,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC102,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),1.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC103,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),8.83,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC104,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),1.71,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC105,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),14,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC106,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),4.83,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC107,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC108,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),0.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC109,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),7.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC110,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC111,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),0.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC112,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC113,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),0.14,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC114,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),1.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC115,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),12.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC116,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),15.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC117,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC118,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),0.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC119,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),0.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC120,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),4.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC121,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),4.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC122,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),7.13,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC123,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),8.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC124,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),16.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC125,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),13.83,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC126,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC127,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),10,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC128,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),15.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC129,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),14.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC130,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),10.14,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC131,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),4.43,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC132,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),10.83,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC133,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),4.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC134,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),11.71,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC135,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC136,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),11.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC137,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),12.71,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC138,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),0.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC139,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),12.83,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC140,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),13.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC141,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),12.83,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC142,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),1.17,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC143,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),14.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC144,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),1.57,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC145,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),1.17,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC146,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),9.17,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC147,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2.29,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC148,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),15.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC149,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC150,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),9.43,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC151,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2.17,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC152,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),11.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC153,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),16.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC154,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),6,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC155,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),8.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC156,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),1.86,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC157,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),12.17,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC158,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),0.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC159,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),8.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC160,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2.63,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC161,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),14.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC162,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),9,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC163,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3.83,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC164,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),0.88,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC165,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),6.83,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC166,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),8.71,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC167,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2.83,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC168,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),10,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC169,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),13.83,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC170,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),8.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC171,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),1.63,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC172,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),0.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC173,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),5.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC174,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),1.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC175,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),5.86,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC176,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),12.17,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC177,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),4.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC178,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),11.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC179,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC180,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),23,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC181,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),1,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC182,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),23.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC183,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),19,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC184,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),23.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC185,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),16.6,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC186,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),21,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC187,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),14.8,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC188,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC189,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),18.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC190,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2.4,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC191,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC192,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),15,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC193,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC194,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),8.8,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC195,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),24.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC196,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),20.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC197,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),16.4,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC198,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),20.8,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC199,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),21.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC200,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),20.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC201,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),29.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC202,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3.8,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC203,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),28,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC204,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),23.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC205,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),15.4,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC206,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),23.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC207,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),20.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC208,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),20,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC209,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),17.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC210,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),16.2,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC211,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),22.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC212,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),20.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC213,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),21,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC214,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),22,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC215,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),20.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC216,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),17.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC217,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),17.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC218,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),22.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC219,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),25.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC220,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC221,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),28.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC222,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),26,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC223,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),5.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC224,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),22,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC225,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),14,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC226,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),0.8,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC227,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),0.8,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC228,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),19.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC229,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2.4,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC230,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),17.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC231,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),23,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC232,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),27,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC233,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),20.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC234,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),19.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC235,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),15.4,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC236,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),8,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC237,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),23.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC238,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),16.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC239,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),17.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC240,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),15,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC241,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),20.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC242,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),18,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC243,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),0.4,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC244,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),20.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC245,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC246,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),9.8,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC247,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),16.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC248,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),9.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC249,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),4,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC250,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),12,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC251,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),10.8,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC252,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),27.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC253,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),1.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC254,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),4.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC255,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),14.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC256,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),14,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC257,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),7.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC258,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),18,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC259,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),8.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC260,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),4,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC261,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),0.2,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC262,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),1.6,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC263,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),18.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC264,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),22.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC265,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC266,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3.8,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC267,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),9.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC268,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC269,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),19.6,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC270,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),19.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC271,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),13,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC272,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),5.6,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC273,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),16,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC274,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),6.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC275,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),15.2,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC276,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),8,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC277,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),20.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC278,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC279,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),12.4,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC280,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC281,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),16,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC282,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),17.2,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC283,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),15.6,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC284,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),10,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC285,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),20,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC286,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),21.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC287,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),26,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC288,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),14.6,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC289,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),25.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC290,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),18.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC291,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),24.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC292,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),23,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC293,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),25.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC294,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),18.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC295,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),23.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC296,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),19.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC297,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),21.2,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC298,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),23,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC299,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),23.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC300,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),16,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC301,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),19,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC302,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),0.4,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC303,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),11.2,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC304,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),11.6,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC305,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),1.2,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC306,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2.2,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC307,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),15.8,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC308,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),7.2,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC309,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),0.6,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC310,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),22.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC311,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),8.2,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC312,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),9.6,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC313,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),9.2,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC314,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3.2,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC315,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),24.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC316,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),13,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC317,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),4.4,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC318,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),5.6,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC319,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),28.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC320,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),21,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC321,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),6.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC322,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),21.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC323,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),18.4,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC324,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),15,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC325,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),15,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC326,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2.6,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC327,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),6.4,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC328,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),7.4,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC329,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),22.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC330,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),4.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC331,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),12.6,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC332,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),11,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC333,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),20.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC334,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),22.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC335,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC336,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),7.6,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC337,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),10,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC338,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),6,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC339,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),22.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC340,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),23.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC341,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),7,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC342,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),17.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC343,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),10.6,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC344,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),7.8,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC345,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),27.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC346,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),31.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC347,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),20,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC348,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),37.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC349,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),36,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC350,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),25.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC351,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),23.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC352,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),23.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC353,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),21.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC354,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),19.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC355,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),5.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC356,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),11,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC357,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),29,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC358,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),27.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC359,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),31,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC360,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),18.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC361,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),27.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC362,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),23.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC363,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),12.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC364,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),29.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC365,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),20.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC366,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),18.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC367,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),7.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC368,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),13,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC369,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),8,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC370,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),31.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC371,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),37.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC372,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),11,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC373,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),27.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC374,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),7.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC375,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),14,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC376,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),14.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC377,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),34,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC378,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),23.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC379,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),19,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC380,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),22.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC381,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),0,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC382,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),28,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC383,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),8.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC384,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),21,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC385,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),7.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC386,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),31,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC387,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),17.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC388,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),1,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC389,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),28,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC390,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),25.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC391,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),20,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC392,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),23,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC393,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC394,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),5.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC395,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),1.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC396,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),28.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC397,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),36,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC398,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),28,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC399,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),21.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC400,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC401,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),17.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC402,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),22.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC403,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),25.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC404,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),34.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC405,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),24,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC406,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),22.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC407,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),24.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC408,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),25.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC409,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),26.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC410,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC411,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),7.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC412,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),22.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC413,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),29.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC414,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),25.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC415,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),34,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC416,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),9.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC417,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),28.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC418,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),16.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC419,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),27,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC420,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),32,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC421,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),25.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC422,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),26.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC423,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),10,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC424,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),27.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC425,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),15.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC426,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),14,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC427,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),29.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC428,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),31.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC429,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),27.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC430,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),27.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC431,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),17,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC432,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),16,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC433,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC434,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),30.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC435,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),17.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC436,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),16.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC437,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),22.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC438,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),18.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC439,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),35.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC440,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),23.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC441,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),19.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC442,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),35.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC443,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),26.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC444,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),47,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC445,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),25.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC446,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),28,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC447,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),30.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC448,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),29.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC449,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),34,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC450,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),19.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC451,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),30,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC452,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),15.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC453,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),26,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC454,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),28.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC455,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),15.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC456,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),34,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC457,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),4.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC458,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),27.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC459,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),19.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC460,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),32.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC461,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),28,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC462,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),23.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC463,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),29.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC464,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),5.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC465,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC466,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),1,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC467,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),37.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC468,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),26.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC469,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),29.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC470,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),9.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC471,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),25.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC472,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC473,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),23.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC474,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),25.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC475,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),13,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC476,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),21.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC477,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),16.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC478,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),30.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC479,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),35.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC480,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),16,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC481,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),16.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC482,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),4,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC483,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),10,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC484,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),25.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC485,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),4,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC486,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),14.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC487,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC488,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),16,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC489,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),20.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC490,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),14.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC491,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),9,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC492,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC493,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),27.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC494,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),20,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC495,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),8,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC496,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),0.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC497,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),23,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC498,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),13,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC499,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC500,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC501,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),14.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC502,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),17.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC503,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),8.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC504,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),1.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC505,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),8.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC506,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),25.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC507,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),22.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC508,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),23,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC509,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),22,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC510,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),14,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC511,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),17.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC512,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),19,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC513,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC514,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),19,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC515,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),20.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC516,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),4.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC517,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),24,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC518,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),23.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC519,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),17.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC520,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),12.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC521,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),22,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC522,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),14.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC523,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC524,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),26.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC525,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),8.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC526,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),14,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC527,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),28,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC528,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),23.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC529,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),21.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC530,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),12,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC531,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),8.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC532,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),20.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC533,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),14.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC534,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),26.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC535,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),10,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC536,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),9.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC537,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),18,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC538,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),19,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC539,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),14,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC540,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),18.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC541,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),23.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC542,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),10.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC543,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),17.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC544,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),23.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC545,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),16.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC546,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),12.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC547,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),12.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC548,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),8.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC549,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),14,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC550,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),15.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC551,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),14.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC552,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),8.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC553,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),20.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC554,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),24.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC555,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),15.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC556,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),7.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC557,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),16.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC558,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),15.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC559,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),11.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC560,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC561,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),17,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC562,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC563,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),20.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC564,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),16.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC565,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),10.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC566,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),9.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC567,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),31,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC568,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),21,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC569,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),18,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC570,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),20.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC571,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),1,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC572,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),27.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC573,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),32.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC574,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),9.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC575,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),0.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC576,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC577,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),24.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC578,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),7.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC579,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),15,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC580,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),14.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC581,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),0.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC582,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),14.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC583,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC584,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),18,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC585,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),21.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC586,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),0.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC587,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),10.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC588,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),17.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC589,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),13.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC590,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),6,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC591,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),21.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC592,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),13,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC593,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),0.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC594,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),4.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC595,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC596,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),18.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC597,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC598,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),15.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC599,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),19.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC600,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),14,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC601,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),4,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC602,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),7,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC603,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),22.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC604,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),16.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC605,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),13,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC606,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),9.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC607,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),10,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC608,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),7,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC609,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),17.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC610,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),14,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC611,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),8.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC612,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC613,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),1.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC614,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),14.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC615,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),4,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC616,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),15,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC617,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),21.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC618,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),8.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC619,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),7.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC620,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),6.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC621,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),4,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC622,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),11.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC623,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),7.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC624,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),14.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC625,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),16.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC626,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),28,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC627,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),14.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC628,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),8.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC629,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),11.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC630,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),21.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC631,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),18,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC632,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC633,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),1.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC634,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),15,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC635,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC636,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),11.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC637,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),4.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC638,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),4.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC639,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),16.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC640,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),14.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC641,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),7.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC642,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),14.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC643,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),13.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC644,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC645,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),9.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC646,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),22.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC647,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC648,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),10.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC649,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),16,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC650,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC651,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),12.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC652,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),16.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC653,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),15.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC654,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),8.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC655,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),13,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC656,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),21.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC657,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),16.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC658,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),20,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC659,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),8,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC660,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),16.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC661,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),25.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC662,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),0.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC663,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),12.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC664,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),18.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC665,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),19,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC666,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),12.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC667,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),7,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC668,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),0.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC669,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC670,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),7.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC671,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),25.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC672,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),20.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC673,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),1,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC674,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),31.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC675,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),26.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC676,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),20,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC677,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),18.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC678,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),20,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC679,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),20,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC680,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),26.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC681,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),23.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC682,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),28,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC683,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),0.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC684,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),19.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC685,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),22.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC686,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),11.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC687,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),5.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC688,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),24.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC689,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),7,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC690,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),7.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC691,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),15.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC692,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),16.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC693,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC694,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),1.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC695,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),9.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC696,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),7.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC697,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),7.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC698,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),13.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC699,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),0.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC700,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),9.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC701,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),17.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC702,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC703,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),19.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC704,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),8.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC705,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),8.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC706,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),12.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC707,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),6,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC708,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),5.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC709,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),33.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC710,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),6.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC711,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),7.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC712,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),22,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC713,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),14.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC714,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),6,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC715,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC716,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),13.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC717,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),0.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC718,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),10.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC719,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),16,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC720,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC721,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),13,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC722,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC723,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),7,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC724,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),21.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC725,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),19.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC726,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),10.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC727,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),19.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC728,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),15,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC729,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),14,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC730,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),22,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC731,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),18,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC732,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),29,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC733,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),21.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC734,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),11,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC735,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),9,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC736,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),4,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC737,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),10.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC738,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),11.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC739,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),7.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC740,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),7,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC741,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),7.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC742,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),12.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC743,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC744,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),22.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC745,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),18.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC746,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),8,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC747,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),7.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC748,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),26.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC749,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),9.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC750,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),5.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC751,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),14.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC752,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),1.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC753,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC754,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),26.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC755,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),17.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC756,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),0.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC757,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC758,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC759,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),23.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC760,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),12.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC761,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),8.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC762,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),26.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC763,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),13.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC764,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),7.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC765,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),11.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC766,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC767,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),23.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC768,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),10.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC769,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),18.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC770,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),5.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC771,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),10,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC772,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),4.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC773,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),6.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC774,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),13.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC775,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),4.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC776,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),14.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC777,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),17.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC778,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),1,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC779,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),10,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC780,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),14.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC781,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),0.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC782,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),13.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC783,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),26,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC784,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),14.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC785,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),20,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC786,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),23.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC787,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),4.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC788,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC789,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),30.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC790,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),5.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC791,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),20,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC792,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),18,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC793,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),22.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC794,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),31,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC795,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),38,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC796,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),30,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC797,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),26,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC798,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),24.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC799,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),1.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC800,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),14.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC801,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),15.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC802,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC803,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC804,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),12,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC805,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),20,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC806,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC807,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),24.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC808,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),4,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC809,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),20.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC810,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC811,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),1,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC812,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),13.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC813,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),8.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC814,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),14,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC815,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),8.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC816,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC817,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC818,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),9.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC819,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC820,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC821,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),4.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC822,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),6.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC823,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),4.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC824,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),6.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC825,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),9.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC826,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),30.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC827,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),12,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC828,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),9.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC829,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),1,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC830,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),8,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC831,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),8,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC832,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),4.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC833,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),7.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC834,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),30,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC835,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),7.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC836,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),16,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC837,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3.25,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC838,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),1,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC839,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),22.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC840,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),0.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC841,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC842,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),3.67,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC843,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC844,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),2,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC845,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),0.75,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC846,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),6,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC847,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),12,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC848,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),8.5,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC849,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),0.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC850,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),1.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC851,NA,fecundity rate,individual-level average number of eggs per individual per day during first gonotrophic cycle (eggs laid during cycle divided by cycle length in days),1.33,eggs individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC001,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC002,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC003,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC004,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC005,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC006,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC007,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC008,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC009,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC010,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC011,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC012,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC013,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC014,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC015,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC016,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC017,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC018,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC019,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC020,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC021,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC022,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC023,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC024,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC025,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC026,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC027,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC028,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC029,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC030,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC031,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC032,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC033,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC034,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC035,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC036,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC037,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC038,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC039,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC040,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC041,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC042,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC043,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC044,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC045,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC046,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC047,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC048,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC049,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC050,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC051,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC052,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC053,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC054,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC055,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC056,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC057,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC058,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC059,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC060,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC061,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC062,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC063,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC064,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC065,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC066,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC067,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC068,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC069,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC070,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC071,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC072,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC073,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC074,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC075,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC076,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC077,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC078,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC079,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC080,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC081,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC082,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC083,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC084,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC085,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC086,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC087,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC088,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC089,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC090,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC091,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC092,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC093,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC094,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC095,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC096,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC097,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC098,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC099,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC100,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC101,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC102,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC103,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC104,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC105,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC106,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC107,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC108,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC109,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC110,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC111,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC112,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC113,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC114,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC115,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC116,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC117,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC118,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC119,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC120,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC121,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC122,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC123,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC124,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC125,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC126,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC127,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC128,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC129,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC130,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC131,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC132,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC133,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC134,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC135,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC136,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC137,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC138,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC139,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC140,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC141,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC142,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC143,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC144,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC145,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC146,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC147,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC148,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC149,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC150,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC151,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC152,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC153,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC154,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC155,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC156,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC157,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC158,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC159,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC160,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC161,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC162,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC163,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC164,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC165,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC166,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC167,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC168,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC169,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC170,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC171,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC172,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC173,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC174,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC175,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC176,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC177,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC178,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC179,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC180,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC181,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC182,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC183,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC184,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC185,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC186,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC187,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC188,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC189,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC190,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC191,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC192,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC193,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC194,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC195,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC196,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC197,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC198,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC199,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC200,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC201,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC202,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC203,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC204,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC205,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC206,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC207,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC208,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC209,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC210,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC211,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC212,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC213,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC214,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC215,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC216,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC217,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC218,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC219,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC220,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC221,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC222,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC223,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC224,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC225,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC226,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC227,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC228,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC229,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC230,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC231,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC232,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC233,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC234,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC235,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC236,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC237,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC238,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC239,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC240,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC241,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC242,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC243,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC244,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC245,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC246,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC247,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC248,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC249,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC250,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC251,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC252,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC253,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC254,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC255,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC256,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC257,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC258,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC259,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC260,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC261,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC262,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC263,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC264,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC265,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC266,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC267,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC268,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC269,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC270,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC271,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC272,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC273,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC274,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC275,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC276,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC277,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC278,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC279,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC280,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC281,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC282,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC283,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC284,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC285,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC286,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC287,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC288,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC289,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC290,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC291,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC292,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC293,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC294,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC295,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC296,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC297,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC298,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC299,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC300,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC301,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC302,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC303,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC304,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC305,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC306,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC307,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC308,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC309,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC310,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC311,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC312,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC313,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC314,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC315,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC316,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC317,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC318,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC319,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC320,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC321,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC322,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC323,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC324,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC325,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC326,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC327,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC328,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC329,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC330,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC331,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC332,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC333,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC334,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC335,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC336,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC337,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC338,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC339,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC340,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC341,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC342,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC343,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC344,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC345,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC346,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC347,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC348,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC349,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC350,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC351,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC352,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC353,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC354,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC355,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC356,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC357,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC358,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC359,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC360,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC361,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC362,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC363,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC364,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC365,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC366,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC367,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC368,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC369,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC370,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC371,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC372,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC373,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC374,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC375,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC376,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC377,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC378,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC379,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC380,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC381,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC382,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC383,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC384,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC385,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC386,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC387,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC388,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC389,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC390,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC391,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC392,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC393,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC394,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC395,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC396,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC397,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC398,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC399,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC400,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC401,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC402,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC403,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC404,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC405,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC406,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC407,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC408,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC409,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC410,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC411,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC412,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC413,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC414,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC415,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC416,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC417,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC418,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC419,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC420,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC421,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC422,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC423,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC424,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC425,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC426,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC427,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC428,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC429,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC430,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC431,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC432,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC433,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC434,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC435,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC436,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC437,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC438,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC439,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC440,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC441,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC442,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC443,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC444,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC445,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC446,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC447,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC448,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC449,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC450,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC451,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC452,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC453,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC454,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC455,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC456,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC457,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC458,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC459,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC460,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC461,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC462,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC463,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC464,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC465,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC466,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC467,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC468,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC469,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC470,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC471,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC472,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC473,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC474,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC475,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC476,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC477,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC478,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC479,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC480,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC481,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC482,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC483,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC484,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC485,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC486,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC487,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC488,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC489,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC490,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC491,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC492,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC493,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC494,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC495,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC496,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC497,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC498,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC499,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC500,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC501,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC502,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC503,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC504,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC505,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC506,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC507,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC508,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC509,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC510,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC511,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC512,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC513,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC514,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC515,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC516,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC517,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC518,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC519,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC520,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC521,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC522,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC523,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC524,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC525,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC526,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC527,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC528,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC529,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC530,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC531,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC532,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC533,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC534,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC535,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC536,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC537,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC538,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC539,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC540,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC541,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC542,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC543,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC544,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC545,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC546,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC547,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC548,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC549,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC550,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC551,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC552,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC553,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC554,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC555,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC556,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC557,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC558,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC559,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC560,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC561,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC562,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC563,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC564,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC565,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC566,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC567,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC568,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC569,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC570,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC571,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC572,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC573,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC574,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC575,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC576,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC577,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC578,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC579,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC580,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC581,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC582,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC583,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC584,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC585,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC586,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC587,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC588,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC589,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC590,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC591,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC592,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC593,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC594,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC595,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC596,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC597,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC598,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC599,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC600,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC601,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC602,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC603,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC604,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC605,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC606,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC607,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC608,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC609,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC610,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC611,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC612,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC613,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC614,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC615,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC616,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC617,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC618,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC619,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC620,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC621,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC622,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC623,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC624,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC625,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC626,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC627,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC628,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC629,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC630,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC631,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC632,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC633,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC634,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC635,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC636,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC637,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC638,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC639,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC640,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC641,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC642,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC643,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC644,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC645,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC646,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC647,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC648,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC649,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC650,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC651,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC652,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC653,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC654,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC655,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC656,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC657,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC658,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC659,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC660,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC661,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC662,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC663,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC664,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC665,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC666,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC667,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC668,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC669,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC670,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC671,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC672,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC673,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC674,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC675,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC676,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC677,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC678,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC679,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC680,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC681,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC682,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC683,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC684,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC685,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC686,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC687,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC688,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC689,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC690,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC691,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC692,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC693,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC694,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC695,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC696,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC697,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC698,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC699,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC700,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC701,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC702,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC703,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC704,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC705,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC706,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC707,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC708,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC709,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC710,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC711,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC712,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC713,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC714,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC715,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC716,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC717,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC718,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC719,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC720,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC721,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC722,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC723,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC724,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC725,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC726,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC727,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC728,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC729,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC730,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC731,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC732,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC733,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC734,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC735,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC736,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC737,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC738,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC739,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC740,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC741,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC742,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC743,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC744,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC745,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC746,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC747,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC748,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC749,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC750,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC751,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC752,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC753,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC754,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC755,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC756,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC757,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC758,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC759,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC760,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC761,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC762,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC763,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC764,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC765,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC766,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC767,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC768,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC769,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC770,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC771,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC772,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC773,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC774,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC775,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC776,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC777,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC778,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC779,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC780,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC781,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC782,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC783,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC784,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC785,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC786,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC787,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC788,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC789,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC790,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC791,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC792,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC793,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC794,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC795,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC796,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC797,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC798,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC799,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC800,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC801,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC802,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC803,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC804,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC805,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC806,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC807,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC808,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC809,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC810,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC811,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC812,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC813,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC814,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC815,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC816,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC817,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC818,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC819,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC820,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC821,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC822,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC823,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC824,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC825,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC826,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC827,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC828,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC829,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC830,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC831,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC832,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC833,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC834,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC835,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC836,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC837,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC838,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC839,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC840,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC841,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC842,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC843,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC844,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC845,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC846,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC847,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC848,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC849,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC850,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
DNFC851,NA,gonotrophic cycle,individual-level duration of first gonotrophic cycle,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_AdultSurvivalSummary,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.008,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,106,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=182,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.008,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,107,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=184,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.008,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,108,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=180,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.007,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,87,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=163,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.008,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,97,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=166,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.009,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,99,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=153,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.006,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,83,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=177,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.007,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,94,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=169,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.008,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,94,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=162,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.006,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,68,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=151,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.005,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,57,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=148,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.004,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,45,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=140,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.005,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,49,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=127,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.005,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,51,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=143,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.005,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=141,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.006,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,65,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=154,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.005,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,54,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=152,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.006,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,70,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=155,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.007,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,70,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=165,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.007,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,78,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=176,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.007,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,81,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=192,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.004,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,34,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=138,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.004,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,45,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=176,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.003,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,39,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=186,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.006,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,64,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=176,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.007,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,74,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=175,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.009,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,80,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=154,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.003,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=130,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.004,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,39,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=171,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.004,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=142,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.007,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,68,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=171,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.008,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,67,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=143,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.011,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,110,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=161,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.008,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,77,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=149,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.006,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=163,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.005,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,57,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=172,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.014,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,133,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=189,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.015,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,152,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=198,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.014,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,127,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=180,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.01,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,90,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=186,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.013,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,115,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=173,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.013,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=184,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.012,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,110,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=184,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.011,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,107,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=187,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.016,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,153,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=192,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.013,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,129,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=192,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.009,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,76,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=166,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.013,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,128,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=190,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.016,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,157,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=196,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.012,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,116,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=195,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.013,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,122,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=187,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.012,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,121,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=197,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.013,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,107,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=169,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.016,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=188,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.018,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,143,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=185,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.017,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,137,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=190,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.015,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,116,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=177,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.02,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,139,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=165,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.017,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,130,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=174,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.017,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,131,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=182,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.018,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,148,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=190,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.016,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,129,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=187,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.017,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,127,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=171,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.017,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,113,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=155,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.012,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,79,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=156,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.015,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,116,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=186,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.014,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,113,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=185,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.016,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,129,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=190,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.018,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,144,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=184,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.02,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,159,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=183,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.022,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,165,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=172,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.02,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,145,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=169,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.021,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,164,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=179,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.02,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,153,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=182,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.021,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,167,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=182,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.021,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,160,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=176,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.022,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,156,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=167,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.021,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,167,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=182,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.021,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,155,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=171,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.021,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,166,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=180,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.022,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,128,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=136,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.021,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,159,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=177,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.022,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,141,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=148,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.02,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,155,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=179,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.022,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,179,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=187,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.02,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,149,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=173,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.021,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,159,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=179,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.019,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,157,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=193,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.023,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,170,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=172,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.022,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,152,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=160,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.019,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,95,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=117,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.023,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,158,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=176,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.024,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,144,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=165,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.025,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,147,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=162,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.01,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,64,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=145,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.021,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,153,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=172,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.021,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,166,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=181,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.02,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,164,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=189,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.022,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,171,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=180,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.02,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,143,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=164,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.021,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,134,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=148,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.023,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,137,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=153,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.031,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,167,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=183,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.024,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,168,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=163,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.026,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,155,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=173,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.022,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,159,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=174,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.021,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=135,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.021,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,105,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=118,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.023,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,131,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=149,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.028,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,85,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=106,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.03,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=164,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.026,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,84,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=92,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.027,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,117,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=126,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.019,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=31,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.02,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,101,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=118,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.026,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,143,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=156,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.03,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,132,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=141,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.02,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,91,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=146,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.026,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,125,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=148,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.029,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,95,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=94,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.02,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,74,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=89,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.027,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,135,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=147,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.027,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,134,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=144,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.022,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,109,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=135,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.024,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,92,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=111,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.017,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,33,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=42,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.032,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=32,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.033,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=14,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.034,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,39,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=32,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.038,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,52,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=59,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.036,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,51,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=54,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.045,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=4,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.041,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,61,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=64,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.033,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,70,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=78,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.041,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,81,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=85,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.031,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=52,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.059,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=3,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.034,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,52,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=48,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.044,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=31,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.041,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=19,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.028,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=14,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.032,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,90,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=98,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.043,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,92,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=90,TRUE,01/01/2023
NA,NA,mortality rate,replicate-level per capita rate of mortality (proportion dead at end of observation period),0.058,individual-1 day-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,31,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,104,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male and female,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Data file: SelectionExp_Fecundity,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1111/gcb.17041,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor number is the number of individuals dead from n=69,TRUE,01/01/2023
NA,NA,development time,mean duration of life stage,27.31,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,25.07,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,21.1,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,61.56,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,19.27,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,15.35,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,14.71,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,13.27,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,14.44,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,21.77,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,68.72,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,23.76,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,17,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,15.68,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,16.43,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,17.01,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,27.91,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,146.3,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,47.63,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,38.18,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,35.02,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,33.27,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,36.95,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,75.9,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,160.67,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,4.3,days,0.12,0.12,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,for the egg phase the first 20 postures of each treatment were evaluated. interactor1temp is the water temperature that eggs were exposed to in incubators held at 22,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,3.7,days,0.13,0.13,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,for the egg phase the first 20 postures of each treatment were evaluated. interactor1temp is the water temperature that eggs were exposed to in incubators held at 22,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,2.9,days,0.12,0.12,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,for the egg phase the first 20 postures of each treatment were evaluated. interactor1temp is the water temperature that eggs were exposed to in incubators held at 22,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,18.3,days,0.13,0.13,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,11.1,days,0.47,0.47,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,33,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,6.6,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,5.8,days,0.08,0.08,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,6,days,0.14,0.14,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,6.7,days,0.29,0.29,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,2.7,days,0.12,0.12,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,31,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,2.4,days,0.06,0.06,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,1.6,days,0.07,0.07,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,1.6,days,0.09,0.09,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,19.3,days,0.62,0.62,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,31,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,12.4,days,0.24,0.24,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,11.8,days,0.31,0.31,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,10.6,days,0.14,0.14,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,13.8,days,0.62,0.62,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,61,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from an initial n=120,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,9,days,0.24,0.24,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,94,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from an initial n=120,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,7.4,days,0.31,0.31,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,104,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from an initial n=120,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,7.6,days,0.14,0.14,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,116,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from an initial n=120,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,80.2,percent,7.23,7.23,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,61.3,percent,4.77,4.77,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,31,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,60.7,percent,6.88,6.88,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,33.2,percent,5.55,5.55,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,94.1,percent,4.99,4.99,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,82.5,percent,3.51,3.51,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,21,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,92.5,percent,2.5,2.5,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,98.3,percent,1.12,1.12,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,90.8,percent,3.13,3.13,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,54,percent,5.91,5.91,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,59,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,95.2,percent,3.21,3.21,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,93.8,percent,2.94,2.94,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,98.1,percent,1.25,1.25,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,91.7,percent,3.69,3.69,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,50.83,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,59,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Estimated from table 7,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,78.33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Estimated from table 8,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,86.67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Estimated from table 9,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,96.67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Estimated from table 10,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,83.33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Estimated from table 11,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,longevity,mean duration of life stage,29.2,days,3.6,3.6,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,18,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,longevity,mean duration of life stage,39,days,1.9,1.9,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,longevity,mean duration of life stage,48.5,days,3.9,3.9,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,longevity,mean duration of life stage,18,days,1.4,1.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,longevity,mean duration of life stage,9.9,days,0.6,0.6,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,longevity,mean duration of life stage,33.5,days,2.21,2.21,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,longevity,mean duration of life stage,53.3,days,0.45,0.45,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,longevity,mean duration of life stage,32.9,days,2.62,2.62,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,longevity,mean duration of life stage,23.4,days,1.41,1.41,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,longevity,mean duration of life stage,10.2,days,1.02,1.02,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,fecundity,mean lifetime eggs per individual,2.2,eggs individual-1,1.11,1.11,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,fecundity,mean lifetime eggs per individual,104.6,eggs individual-1,10.6,10.6,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,fecundity,mean lifetime eggs per individual,271.9,eggs individual-1,15.9,15.9,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,fecundity,mean lifetime eggs per individual,132.1,eggs individual-1,30.3,30.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,fecundity,mean lifetime eggs per individual,6.3,eggs individual-1,2.6,2.6,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Campina Grande Paraiba Brazil,field,NA,0,decimal,-7.225556,-35.904167,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,0,days,NA,NA,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,for the egg phase the first 20 postures of each treatment were evaluated. interactor1temp is the water temperature that eggs were exposed to in incubators held at 34,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,5.2,days,0.36,0.36,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,for the egg phase the first 20 postures of each treatment were evaluated. interactor1temp is the water temperature that eggs were exposed to in incubators held at 34,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,4.5,days,0.18,0.18,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,for the egg phase the first 20 postures of each treatment were evaluated. interactor1temp is the water temperature that eggs were exposed to in incubators held at 34,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,2.3,days,0.12,0.12,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,for the egg phase the first 20 postures of each treatment were evaluated. interactor1temp is the water temperature that eggs were exposed to in incubators held at 34,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,2.5,days,0.09,0.09,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,for the egg phase the first 20 postures of each treatment were evaluated. interactor1temp is the water temperature that eggs were exposed to in incubators held at 34,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,21,days,0.48,0.48,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,12.3,days,0.22,0.22,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,38,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,7.3,days,0.14,0.14,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,42,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,5.9,days,0.14,0.14,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,37,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,9.7,days,0.23,0.23,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,38,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,6.6,days,0.12,0.12,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,3.2,days,0.05,0.05,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,38,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,2.3,days,0.05,0.05,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,42,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,1.4,days,0.04,0.04,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,37,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,1.4,days,0.05,0.05,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,38,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,36.8,days,0.69,0.69,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,21.7,days,0.37,0.37,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,38,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,14.3,days,0.23,0.23,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,42,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,10.4,days,0.24,0.24,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,37,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,14.6,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,38,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,27.7,days,0.69,0.69,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,104,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from an initial n=120,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,15.6,days,0.37,0.37,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,118,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from an initial n=120,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,9.6,days,0.23,0.23,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,119,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from an initial n=120,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,7.2,days,0.24,0.24,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,117,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from an initial n=120,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,11,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,117,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from an initial n=120,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,20.8,percent,7.97,7.97,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,77.2,percent,3.05,3.05,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,39,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,83.4,percent,3.7,3.7,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,42,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,75.2,percent,3.45,3.45,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,38,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,78.7,percent,5.28,5.28,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,39,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,95,percent,2.3,2.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,98.3,percent,1.12,1.12,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,99.1,percent,0.83,0.83,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,97.5,percent,1.3,1.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,97.5,percent,1.3,1.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,91.6,percent,3.22,3.22,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,86.67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Estimated from table 22,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,98.33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Estimated from table 23,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,99.17,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Estimated from table 24,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,97.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Estimated from table 25,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,54.48,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,41.63,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,35.92,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,32.93,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,31.79,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,0,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,trait value set to zero because no individuals survived to complete this life stage at this temperature,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,525.67,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,174.36,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,23,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,138.79,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,22,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,122.61,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,23,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,123.21,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,125.26,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,0,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Galveston Texas USA,colony,NA,0,decimal,29.281111,-94.825833,Aedes aegypti,Yellow fever mosquito,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 9,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26). trait value is set to zero because juvenile mortality was complete at this temperature,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,123.63,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,39.46,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,33.25,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,32.62,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,27.72,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,35.48,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,58.08,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,72.55,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,21.81,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,14.95,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,13.56,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,14.52,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,20.61,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,61.92,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,82.23,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,25.1,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,20.36,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,18.49,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,18.78,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,24.91,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,0,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,trait value set to zero because no individuals survived to complete this life stage at this temperature,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,203.77,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,59.04,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,45.16,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,45.38,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,50.13,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,75.9,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,0,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,trait value set to zero because no individuals survived to complete this life stage at this temperature,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,176.65,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,58.79,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,46.93,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,40.65,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,37.6,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,31.9,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,0,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,trait value set to zero because no individuals survived to complete this life stage at this temperature,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,658.83,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,204.2,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,23,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,160.65,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,150.7,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,23,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,148.75,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,188.8,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,0,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,1,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26). trait value is set to zero because juvenile mortality was complete at this temperature,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,124.38,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,44.8,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,31.51,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,28.02,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,34.06,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,32.27,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,69,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,66.66,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,23.95,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,16.56,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,15,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,15.6,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,23.75,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,57,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L2,NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,85.15,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,27.32,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,20.46,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,18.78,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,survival,percentage surviving life stage,97.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Estimated from table 26,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,longevity,mean duration of life stage,41.1,days,1.31,1.31,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,18,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,longevity,mean duration of life stage,28,days,0.48,0.48,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,longevity,mean duration of life stage,33.6,days,1.18,1.18,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,longevity,mean duration of life stage,18.4,days,0.52,0.52,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,longevity,mean duration of life stage,27.3,days,0.86,0.86,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,longevity,mean duration of life stage,46.2,days,2.24,2.24,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,longevity,mean duration of life stage,32.4,days,0.81,0.81,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,longevity,mean duration of life stage,43.7,days,1.84,1.84,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,longevity,mean duration of life stage,20.8,days,1.29,1.29,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,longevity,mean duration of life stage,31.2,days,1.27,1.27,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,fecundity,mean lifetime eggs per individual,18.7,eggs individual-1,4.75,4.75,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,fecundity,mean lifetime eggs per individual,93.8,eggs individual-1,8.93,8.93,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,fecundity,mean lifetime eggs per individual,242.2,eggs individual-1,6.94,6.94,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,fecundity,mean lifetime eggs per individual,49.9,eggs individual-1,6.59,6.59,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,fecundity,mean lifetime eggs per individual,36.7,eggs individual-1,5.1,5.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Itaporanga Paraiba Brazil,field,NA,0,decimal,-7.3,-37.15,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,0,days,NA,NA,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,for the egg phase the first 20 postures of each treatment were evaluated. interactor1temp is the water temperature that eggs were exposed to in incubators held at 29,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,5.5,days,0.28,0.28,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,for the egg phase the first 20 postures of each treatment were evaluated. interactor1temp is the water temperature that eggs were exposed to in incubators held at 29,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,4.1,days,0.31,0.31,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,for the egg phase the first 20 postures of each treatment were evaluated. interactor1temp is the water temperature that eggs were exposed to in incubators held at 29,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,4.1,days,0.23,0.23,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,for the egg phase the first 20 postures of each treatment were evaluated. interactor1temp is the water temperature that eggs were exposed to in incubators held at 29,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,2.9,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,for the egg phase the first 20 postures of each treatment were evaluated. interactor1temp is the water temperature that eggs were exposed to in incubators held at 29,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,18.9,days,0.38,0.38,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,15.8,days,0.11,0.11,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,32,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,8.4,days,0.14,0.14,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,5.4,days,0.08,0.08,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,32,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,6,days,0.08,0.08,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,6.3,days,0.09,0.09,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,3.3,days,0.06,0.06,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,32,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,2.3,days,0.09,0.09,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,1.1,days,0.07,0.07,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,32,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,1.1,days,0.05,0.05,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,25.1,days,0.38,0.38,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,32,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,15.2,days,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,8.5,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,32,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,9.6,days,0.09,0.09,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,19.9,days,0.38,0.38,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,116,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from an initial n=120,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,10.7,days,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,116,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from an initial n=120,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,6.2,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,118,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from an initial n=120,TRUE,01/01/2006
NA,NA,development time,mean duration of life stage,7.1,days,0.09,0.09,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,115,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from an initial n=120,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,66.9,percent,4.67,4.67,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,33,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,53.1,percent,7.4,7.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,65.8,percent,4.56,4.56,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,33,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,60.3,percent,6.08,6.08,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,98.3,percent,1.12,1.12,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,96.6,percent,1.88,1.88,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,98.3,percent,1.67,1.67,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,95.8,percent,1.93,1.93,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,96.6,percent,1.42,1.42,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,98.33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,17,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Estimated from table 12,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,96.67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Estimated from table 13,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,96.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Estimated from table 14,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,98.33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,29,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Estimated from table 15,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,survival,percentage surviving life stage,95.83,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Estimated from table 16,Beserra et al. 2006. Biologia e exigencias termicas de Aedes aegypti (L.) (Diptera: Culicidae) provenientes de quatro regioes bioclimaticas da Paraiba. Neotropical Entomology 35:6,10.1590/S1519-566X2006000600021,NA,NA,Paul Huxley,phuxly@gmail.com,interactor number is the number of individuals dead from initial n=120 at the start of the experiment,TRUE,01/01/2006
NA,NA,longevity,mean duration of life stage,20.64,days,1.3,1.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,28,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2009
NA,NA,longevity,mean duration of life stage,10.06,days,0.7,0.7,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,32,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2009
NA,NA,longevity,mean duration of life stage,8.84,days,0.6,0.6,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,34,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2009
NA,NA,longevity,mean duration of life stage,22.67,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2009
NA,NA,longevity,mean duration of life stage,24.74,days,1.7,1.7,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2009
NA,NA,longevity,mean duration of life stage,38.36,days,2.7,2.7,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2009
NA,NA,longevity,mean duration of life stage,22.36,days,2.3,2.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2009
NA,NA,longevity,mean duration of life stage,11.22,days,1.1,1.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2009
NA,NA,longevity,mean duration of life stage,10.92,days,0.7,0.7,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2009
NA,NA,fecundity,mean lifetime eggs per female,69.7,eggs individual-1,28.4,28.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,18,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2009
NA,NA,fecundity,mean lifetime eggs per female,14.8,eggs individual-1,7.1,7.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2009
NA,NA,fecundity,mean lifetime eggs per female,214.7,eggs individual-1,27.9,27.9,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2009
NA,NA,fecundity,mean lifetime eggs per female,389.2,eggs individual-1,150.8,150.8,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2009
NA,NA,fecundity,mean lifetime eggs per female,25.3,eggs individual-1,11.1,11.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2009
NA,NA,fecundity,mean lifetime eggs per female,1.8,eggs individual-1,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals of each sex at the start of the adult experiment (20 couples in 5 replicates),TRUE,01/01/2009
NA,NA,longevity,mean duration of life stage,23.587,days,14.85,14.85,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,223,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,longevity,mean duration of life stage,25.388,days,10.818,10.818,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,223,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,longevity,mean duration of life stage,17.579,days,7.721,7.721,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,223,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,longevity,mean duration of life stage,24.777,days,12.452,12.452,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,223,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,longevity,mean duration of life stage,26.839,days,13.052,13.052,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,223,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,longevity,mean duration of life stage,12.724,days,7.999,7.999,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,223,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,longevity,mean duration of life stage,26.64,days,4.501,4.501,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,223,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,longevity,mean duration of life stage,24.509,days,9.644,9.644,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,223,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,longevity,mean duration of life stage,11.437,days,6.047,6.047,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,223,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,longevity,mean duration of life stage,36.764,days,16.516,16.516,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,223,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,longevity,mean duration of life stage,31.208,days,13.196,13.196,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,223,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,longevity,mean duration of life stage,12.189,days,6.84,6.84,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,223,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,survival,percentage surviving life stage,62.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,224,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individual larvae that survived life stage from n=366 at the start of the experiment,TRUE,01/03/2024
NA,NA,survival,percentage surviving life stage,68.91,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,133,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individual larvae that survived life stage from n=193 at the start of the experiment,TRUE,01/03/2024
NA,NA,survival,percentage surviving life stage,65.48,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,294,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individual larvae that survived life stage from n=449 at the start of the experiment,TRUE,01/03/2024
NA,NA,survival,percentage surviving life stage,60.34,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,251,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individual larvae that survived life stage from n=416 at the start of the experiment,TRUE,01/03/2024
NA,NA,survival,percentage surviving life stage,62.88,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,205,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individual larvae that survived life stage from n=326 at the start of the experiment,TRUE,01/03/2024
NA,NA,survival,percentage surviving life stage,39.86,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,165,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult emergence),NA,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individual larvae that survived life stage from n=414 at the start of the experiment,TRUE,01/03/2024
NA,NA,development time,mean duration of life stage,17.81,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,29.96,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,0,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L3,NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,trait value set to zero because no individuals survived to complete this life stage at this temperature,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,188.96,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,56.97,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,45.21,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,43.52,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,47.28,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,63.69,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,0,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,trait value set to zero because no individuals survived to complete this life stage at this temperature,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,179.82,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,61.68,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,42.34,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,39.05,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,38.18,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,33.83,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,0,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,pupal,NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,trait value set to zero because no individuals survived to complete this life stage at this temperature,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,644.97,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,21,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,214.72,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,23,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,156.08,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,22,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,144.37,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,23,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,152.93,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,183.5,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26),TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,0,hours,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,blood meal type,source of parental blood meal. 1 is chicken 2 is human,2,NA,NA,NA,NA,NA,NA,Liberty and Chambers Texas USA,colony,NA,0,decimal,29.7,-94.68,Aedes albopictus,NA,NA,NA,0,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),NA,36,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Sames 1999. Effects of constant and variable temperature and blood-meal sources on development time survival and fecundity of separate and mixed populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae). Ph.D. dissertation Texas A&M University College Station,NA,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that survived life stage from the initial number of individuals at the start of the experiment (n=26). trait value is set to zero because juvenile mortality was complete at this temperature,TRUE,01/01/1999
NA,NA,development time,mean duration of life stage,5.32,days,0.08,0.08,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,male,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,3.01,days,0.06,0.06,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,male,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,3.37,days,0.06,0.06,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,male,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,7.79,days,0.12,0.12,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,male,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,19.5,days,0.18,0.18,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,male,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,7.45,days,0.09,0.09,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,21,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,male,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,27.11,days,0.23,0.23,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,21,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),male,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,2.99,days,0.04,0.04,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,53,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,male,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,1.52,days,0.05,0.05,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,53,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,male,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,1.62,days,0.06,0.06,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,53,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,male,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,3.15,days,0.03,0.03,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,53,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,male,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,9.29,days,0.07,0.07,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,53,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,male,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,4.04,days,0.07,0.07,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,43,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,male,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,13.4,days,0.13,0.13,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,43,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),male,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,2.53,days,0.01,0.01,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,54,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,male,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,1.17,days,0.03,0.03,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,54,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,male,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,1.08,days,0.03,0.03,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,53,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,male,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,2.77,days,0.04,0.04,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,54,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,male,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,7.59,days,0.05,0.05,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,54,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,male,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,2.61,days,0.04,0.04,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,36,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,male,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,10.18,days,0.06,0.06,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,36,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),male,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,1.88,days,0.03,0.03,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,51,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,male,28,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,0.68,days,0.03,0.03,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,51,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,male,28,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,1,days,0.03,0.03,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,51,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,male,28,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,1.82,days,0.04,0.04,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,51,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,male,28,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,5.39,days,0.08,0.08,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,51,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,male,28,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,1.86,days,0.03,0.03,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,male,28,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,7.23,days,0.11,0.11,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),male,28,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,1.55,days,0.03,0.03,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,44,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,male,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,0.95,days,0.02,0.02,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,43,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,male,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,0.7,days,0.04,0.04,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,44,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,male,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,1.63,days,0.06,0.06,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,43,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,male,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,4.86,days,0.08,0.08,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,44,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,male,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,1.7,days,0.06,0.06,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,31,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,male,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,6.4,days,0.04,0.04,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,larvae provided mixture of beans corn chickpeas rice and bovine liver in equal proportions. coded here as diet 1,1,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,31,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),male,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,6.09,days,0.06,0.06,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,46,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,male,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,3.96,days,0.09,0.09,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,46,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,male,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,4.29,days,0.08,0.08,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,46,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,male,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,9.17,days,0.26,0.26,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,46,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,male,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,23.51,days,0.38,0.38,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,46,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,male,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,6.77,days,0.19,0.19,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,male,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,29.81,days,0.64,0.64,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),male,15,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,3.32,days,0.05,0.05,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,male,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,1.92,days,0.04,0.04,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,male,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,1.93,days,0.04,0.04,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,male,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,3.93,days,0.26,0.26,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,47,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,male,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,11.37,days,0.11,0.11,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,male,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,4.67,days,0.06,0.06,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,47,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,male,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,16.03,days,0.13,0.13,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,47,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),male,20,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,2.79,days,0.03,0.03,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,44,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,male,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,0.89,days,0.03,0.03,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,44,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,male,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,1.22,days,0.03,0.03,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,44,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,male,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,2.28,days,0.03,0.03,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,44,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,male,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,7.2,days,0.04,0.04,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,44,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,male,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,2.37,days,0.04,0.04,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,male,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,9.73,days,0.06,0.06,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),male,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,2.5,days,0.01,0.01,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,54,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,male,28,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,0.57,days,0.02,0.02,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,53,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,male,28,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,1.03,days,0.01,0.01,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,54,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,male,28,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,2.03,days,0.05,0.05,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,54,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,male,28,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,6.17,days,0.06,0.06,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,53,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,male,28,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,1.91,days,0.03,0.03,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,male,28,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,8.11,days,0.05,0.05,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),male,28,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,2.11,days,0.02,0.02,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,56,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,male,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,0.87,days,0.02,0.02,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,56,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,male,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,0.75,days,0.04,0.04,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,56,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,male,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,1.91,days,0.03,0.03,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,56,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,male,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,5.67,days,0.05,0.05,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,56,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,male,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,1.65,days,0.03,0.03,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,36,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,male,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,NA,development time,mean duration of life stage,7.31,days,0.06,0.06,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet,25% bovine liver powder 50% tuna meal 12.5% brewer yeast 12.5% squid powder and vitamins. coded here as diet 2,2,NA,NA,NA,NA,NA,NA,Taichung Taiwan,colony (Bora Bora strain),NA,0,decimal,24.143889,120.6794,Aedes aegypti,NA,NA,NA,36,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),male,32,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Sasmita et al. 2019. Effects of larval diets and temperature regimes on life history traits energy reserves and temperature tolerance of male Aedes aegypti (Diptera: Culicidae): optimizing rearing techniques for the sterile insect programmes. Parasites Vectors 12:528,10.1186/s13071-019-3830-z,NA,NA,Marharyta Blaha,marharyta.blaha@gmail.com,NA,TRUE,01/01/2019
NA,JOE008,development time,mean duration for life stage completion,8.38,days,0.05,0.05,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,shade exposure,percent shade exposed to simulated by 3100 1860 775 and 0 lux,0,percent,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony (F147 Bora strain),NA,0,decimal,3.147778,101.695278,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Sukiato et al. 2019. The effects of temperature and shading on mortality and development rates of Aedes aegypti. J. Vector Ecology 44:2,10.1111/jvec.12358,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2019
NA,JOE008,development time,mean duration for life stage completion,8.14,days,0.02,0.02,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,shade exposure,percent shade exposed to simulated by 3100 1860 775 and 0 lux,40,percent,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony (F147 Bora strain),NA,0,decimal,3.147778,101.695278,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Sukiato et al. 2019. The effects of temperature and shading on mortality and development rates of Aedes aegypti. J. Vector Ecology 44:2,10.1111/jvec.12358,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2019
NA,JOE008,development time,mean duration for life stage completion,8.22,days,0.05,0.05,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,shade exposure,percent shade exposed to simulated by 3100 1860 775 and 0 lux,75,percent,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony (F147 Bora strain),NA,0,decimal,3.147778,101.695278,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Sukiato et al. 2019. The effects of temperature and shading on mortality and development rates of Aedes aegypti. J. Vector Ecology 44:2,10.1111/jvec.12358,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2019
NA,JOE008,development time,mean duration for life stage completion,8.23,days,0.26,0.26,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,shade exposure,percent shade exposed to simulated by 3100 1860 775 and 0 lux,100,percent,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony (F147 Bora strain),NA,0,decimal,3.147778,101.695278,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Sukiato et al. 2019. The effects of temperature and shading on mortality and development rates of Aedes aegypti. J. Vector Ecology 44:2,10.1111/jvec.12358,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2019
NA,JOE008,development time,mean duration for life stage completion,7.63,days,0.08,0.08,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,shade exposure,percent shade exposed to simulated by 3100 1860 775 and 0 lux,0,percent,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony (F147 Bora strain),NA,0,decimal,3.147778,101.695278,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Sukiato et al. 2019. The effects of temperature and shading on mortality and development rates of Aedes aegypti. J. Vector Ecology 44:2,10.1111/jvec.12358,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2019
NA,JOE008,development time,mean duration for life stage completion,7.49,days,0.11,0.11,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,shade exposure,percent shade exposed to simulated by 3100 1860 775 and 0 lux,40,percent,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony (F147 Bora strain),NA,0,decimal,3.147778,101.695278,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Sukiato et al. 2019. The effects of temperature and shading on mortality and development rates of Aedes aegypti. J. Vector Ecology 44:2,10.1111/jvec.12358,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2019
NA,JOE008,development time,mean duration for life stage completion,7.89,days,0.05,0.05,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,shade exposure,percent shade exposed to simulated by 3100 1860 775 and 0 lux,75,percent,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony (F147 Bora strain),NA,0,decimal,3.147778,101.695278,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Sukiato et al. 2019. The effects of temperature and shading on mortality and development rates of Aedes aegypti. J. Vector Ecology 44:2,10.1111/jvec.12358,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2019
NA,JOE008,development time,mean duration for life stage completion,8.18,days,0.09,0.09,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,shade exposure,percent shade exposed to simulated by 3100 1860 775 and 0 lux,100,percent,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony (F147 Bora strain),NA,0,decimal,3.147778,101.695278,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,31,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Sukiato et al. 2019. The effects of temperature and shading on mortality and development rates of Aedes aegypti. J. Vector Ecology 44:2,10.1111/jvec.12358,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2019
NA,JOE008,development time,mean duration for life stage completion,7.23,days,0.09,0.09,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,shade exposure,percent shade exposed to simulated by 3100 1860 775 and 0 lux,0,percent,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony (F147 Bora strain),NA,0,decimal,3.147778,101.695278,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Sukiato et al. 2019. The effects of temperature and shading on mortality and development rates of Aedes aegypti. J. Vector Ecology 44:2,10.1111/jvec.12358,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2019
NA,JOE008,development time,mean duration for life stage completion,7.49,days,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,shade exposure,percent shade exposed to simulated by 3100 1860 775 and 0 lux,40,percent,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony (F147 Bora strain),NA,0,decimal,3.147778,101.695278,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Sukiato et al. 2019. The effects of temperature and shading on mortality and development rates of Aedes aegypti. J. Vector Ecology 44:2,10.1111/jvec.12358,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2019
NA,JOE008,development time,mean duration for life stage completion,7.54,days,0.05,0.05,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,shade exposure,percent shade exposed to simulated by 3100 1860 775 and 0 lux,75,percent,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony (F147 Bora strain),NA,0,decimal,3.147778,101.695278,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Sukiato et al. 2019. The effects of temperature and shading on mortality and development rates of Aedes aegypti. J. Vector Ecology 44:2,10.1111/jvec.12358,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2019
NA,JOE008,development time,mean duration for life stage completion,7.49,days,0.04,0.04,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,shade exposure,percent shade exposed to simulated by 3100 1860 775 and 0 lux,100,percent,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony (F147 Bora strain),NA,0,decimal,3.147778,101.695278,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Sukiato et al. 2019. The effects of temperature and shading on mortality and development rates of Aedes aegypti. J. Vector Ecology 44:2,10.1111/jvec.12358,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2019
NA,JOE008,development time,mean duration for life stage completion,7.13,days,0.16,0.16,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,shade exposure,percent shade exposed to simulated by 3100 1860 775 and 0 lux,0,percent,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony (F147 Bora strain),NA,0,decimal,3.147778,101.695278,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,37,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Sukiato et al. 2019. The effects of temperature and shading on mortality and development rates of Aedes aegypti. J. Vector Ecology 44:2,10.1111/jvec.12358,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2019
NA,JOE008,development time,mean duration for life stage completion,7.3,days,0.04,0.04,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,shade exposure,percent shade exposed to simulated by 3100 1860 775 and 0 lux,40,percent,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony (F147 Bora strain),NA,0,decimal,3.147778,101.695278,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,37,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Sukiato et al. 2019. The effects of temperature and shading on mortality and development rates of Aedes aegypti. J. Vector Ecology 44:2,10.1111/jvec.12358,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2019
NA,JOE008,development time,mean duration for life stage completion,7.5,days,0.25,0.25,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,shade exposure,percent shade exposed to simulated by 3100 1860 775 and 0 lux,75,percent,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony (F147 Bora strain),NA,0,decimal,3.147778,101.695278,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,37,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Sukiato et al. 2019. The effects of temperature and shading on mortality and development rates of Aedes aegypti. J. Vector Ecology 44:2,10.1111/jvec.12358,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2019
NA,JOE008,development time,mean duration for life stage completion,7.76,days,0.26,0.26,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,shade exposure,percent shade exposed to simulated by 3100 1860 775 and 0 lux,100,percent,NA,NA,NA,NA,NA,Kuala Lumpa Malaysia,colony (F147 Bora strain),NA,0,decimal,3.147778,101.695278,Aedes aegypti,NA,NA,NA,150,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,37,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Sukiato et al. 2019. The effects of temperature and shading on mortality and development rates of Aedes aegypti. J. Vector Ecology 44:2,10.1111/jvec.12358,NA,NA,Joe Harrison,joeh24@vt.edu,interactor1number is the initial number of individuals at the start of the experiment (n=150),TRUE,01/01/2019
NA,PHX61c,development time,mean duration of life stage,6.4,days,0.5,0.5,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Chiang Mai Thailand,NA,NA,0,decimal,18.795278,98.998611,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (egg to adult),NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsuda et al. 1994. A comparative study on life table characteristics of two strains of Aedes albopictus from Japan and Thailand. Trop. Med. 36: 1,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1994
NA,PHX61c,development time,mean duration of life stage,7.5,days,1.8,1.8,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Nagasaki Japan,NA,NA,0,decimal,32.744722,129.873611,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (egg to adult),NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsuda et al. 1994. A comparative study on life table characteristics of two strains of Aedes albopictus from Japan and Thailand. Trop. Med. 36: 1,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1994
NA,PHX61c,development time,mean duration of life stage,7.5,days,1.4,1.4,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Chiang Mai Thailand,NA,NA,0,decimal,18.795278,98.998611,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (egg to adult),NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsuda et al. 1994. A comparative study on life table characteristics of two strains of Aedes albopictus from Japan and Thailand. Trop. Med. 36: 1,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1994
NA,PHX61c,development time,mean duration of life stage,8.7,days,2.3,2.3,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Nagasaki Japan,NA,NA,0,decimal,32.744722,129.873611,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (egg to adult),NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsuda et al. 1994. A comparative study on life table characteristics of two strains of Aedes albopictus from Japan and Thailand. Trop. Med. 36: 1,NA,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/1994
NA,NA,development time,mean duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Thursday Island Queensland Australia,colony,NA,0,decimal,-10.35,142.13,Aedes aegypti,Yellow fever mosquito,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tun-Lin et al. 2000. Effects of temperature and larval diet on development rates and survival of the dengue vector Aedes aegypti in north Queensland Australia. Med. Vet. Entomol. 14:31-37,10.1046/j.1365-2915.2000.00207.x,NA,NA,Paul Huxley,phuxly@gmail.com,trait value set to zero because mortality was complete at this temperature. interactor1number is the number of individuals that did not survive life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2000
NA,NA,development time,mean duration of life stage,8.7,days,0.2,0.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Thursday Island Queensland Australia,colony,NA,0,decimal,-10.35,142.13,Aedes aegypti,Yellow fever mosquito,NA,NA,47,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tun-Lin et al. 2000. Effects of temperature and larval diet on development rates and survival of the dengue vector Aedes aegypti in north Queensland Australia. Med. Vet. Entomol. 14:31-37,10.1046/j.1365-2915.2000.00207.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2000
NA,NA,development time,mean duration of life stage,2.9,days,0.6,0.6,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Thursday Island Queensland Australia,colony,NA,0,decimal,-10.35,142.13,Aedes aegypti,Yellow fever mosquito,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tun-Lin et al. 2000. Effects of temperature and larval diet on development rates and survival of the dengue vector Aedes aegypti in north Queensland Australia. Med. Vet. Entomol. 14:31-37,10.1046/j.1365-2915.2000.00207.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2000
NA,NA,development time,mean duration of life stage,2.1,days,0.1,0.1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Thursday Island Queensland Australia,colony,NA,0,decimal,-10.35,142.13,Aedes aegypti,Yellow fever mosquito,NA,NA,176,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tun-Lin et al. 2000. Effects of temperature and larval diet on development rates and survival of the dengue vector Aedes aegypti in north Queensland Australia. Med. Vet. Entomol. 14:31-37,10.1046/j.1365-2915.2000.00207.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2000
NA,NA,development time,mean duration of life stage,2.4,days,0.1,0.1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Thursday Island Queensland Australia,colony,NA,0,decimal,-10.35,142.13,Aedes aegypti,Yellow fever mosquito,NA,NA,176,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tun-Lin et al. 2000. Effects of temperature and larval diet on development rates and survival of the dengue vector Aedes aegypti in north Queensland Australia. Med. Vet. Entomol. 14:31-37,10.1046/j.1365-2915.2000.00207.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2000
NA,NA,development time,mean duration of life stage,1.4,days,0.1,0.1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Thursday Island Queensland Australia,colony,NA,0,decimal,-10.35,142.13,Aedes aegypti,Yellow fever mosquito,NA,NA,134,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tun-Lin et al. 2000. Effects of temperature and larval diet on development rates and survival of the dengue vector Aedes aegypti in north Queensland Australia. Med. Vet. Entomol. 14:31-37,10.1046/j.1365-2915.2000.00207.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2000
NA,NA,development time,mean duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Thursday Island Queensland Australia,colony,NA,0,decimal,-10.35,142.13,Aedes aegypti,Yellow fever mosquito,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,40,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tun-Lin et al. 2000. Effects of temperature and larval diet on development rates and survival of the dengue vector Aedes aegypti in north Queensland Australia. Med. Vet. Entomol. 14:31-37,10.1046/j.1365-2915.2000.00207.x,NA,NA,Paul Huxley,phuxly@gmail.com,trait value set to zero because mortality was complete at this temperature. interactor1number is the number of individuals that did not survive life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2000
NA,NA,development time,mean duration of life stage,5.2,days,0.6,0.6,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Thursday Island Queensland Australia,colony,NA,0,decimal,-10.35,142.13,Aedes aegypti,Yellow fever mosquito,NA,NA,47,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tun-Lin et al. 2000. Effects of temperature and larval diet on development rates and survival of the dengue vector Aedes aegypti in north Queensland Australia. Med. Vet. Entomol. 14:31-37,10.1046/j.1365-2915.2000.00207.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2000
NA,NA,development time,mean duration of life stage,1.4,days,1,1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Thursday Island Queensland Australia,colony,NA,0,decimal,-10.35,142.13,Aedes aegypti,Yellow fever mosquito,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tun-Lin et al. 2000. Effects of temperature and larval diet on development rates and survival of the dengue vector Aedes aegypti in north Queensland Australia. Med. Vet. Entomol. 14:31-37,10.1046/j.1365-2915.2000.00207.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2000
NA,NA,development time,mean duration of life stage,1.2,days,0.1,0.1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Thursday Island Queensland Australia,colony,NA,0,decimal,-10.35,142.13,Aedes aegypti,Yellow fever mosquito,NA,NA,176,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tun-Lin et al. 2000. Effects of temperature and larval diet on development rates and survival of the dengue vector Aedes aegypti in north Queensland Australia. Med. Vet. Entomol. 14:31-37,10.1046/j.1365-2915.2000.00207.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2000
NA,NA,development time,mean duration of life stage,1.1,days,0.1,0.1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Thursday Island Queensland Australia,colony,NA,0,decimal,-10.35,142.13,Aedes aegypti,Yellow fever mosquito,NA,NA,176,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tun-Lin et al. 2000. Effects of temperature and larval diet on development rates and survival of the dengue vector Aedes aegypti in north Queensland Australia. Med. Vet. Entomol. 14:31-37,10.1046/j.1365-2915.2000.00207.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2000
NA,NA,development time,mean duration of life stage,1,days,0.1,0.1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Thursday Island Queensland Australia,colony,NA,0,decimal,-10.35,142.13,Aedes aegypti,Yellow fever mosquito,NA,NA,134,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tun-Lin et al. 2000. Effects of temperature and larval diet on development rates and survival of the dengue vector Aedes aegypti in north Queensland Australia. Med. Vet. Entomol. 14:31-37,10.1046/j.1365-2915.2000.00207.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2000
NA,NA,development time,mean duration of life stage,7.3,days,1,1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Thursday Island Queensland Australia,colony,NA,0,decimal,-10.35,142.13,Aedes aegypti,Yellow fever mosquito,NA,NA,47,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tun-Lin et al. 2000. Effects of temperature and larval diet on development rates and survival of the dengue vector Aedes aegypti in north Queensland Australia. Med. Vet. Entomol. 14:31-37,10.1046/j.1365-2915.2000.00207.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2000
NA,NA,development time,mean duration of life stage,1.8,days,0.1,0.1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Thursday Island Queensland Australia,colony,NA,0,decimal,-10.35,142.13,Aedes aegypti,Yellow fever mosquito,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tun-Lin et al. 2000. Effects of temperature and larval diet on development rates and survival of the dengue vector Aedes aegypti in north Queensland Australia. Med. Vet. Entomol. 14:31-37,10.1046/j.1365-2915.2000.00207.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2000
NA,NA,development time,mean duration of life stage,0.9,days,0.1,0.1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Thursday Island Queensland Australia,colony,NA,0,decimal,-10.35,142.13,Aedes aegypti,Yellow fever mosquito,NA,NA,176,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tun-Lin et al. 2000. Effects of temperature and larval diet on development rates and survival of the dengue vector Aedes aegypti in north Queensland Australia. Med. Vet. Entomol. 14:31-37,10.1046/j.1365-2915.2000.00207.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2000
NA,NA,development time,mean duration of life stage,1,days,0.1,0.1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Thursday Island Queensland Australia,colony,NA,0,decimal,-10.35,142.13,Aedes aegypti,Yellow fever mosquito,NA,NA,176,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tun-Lin et al. 2000. Effects of temperature and larval diet on development rates and survival of the dengue vector Aedes aegypti in north Queensland Australia. Med. Vet. Entomol. 14:31-37,10.1046/j.1365-2915.2000.00207.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2000
NA,NA,fecundity,individual-level lifetime eggs,97.61,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,107.38,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,119.31,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,122.56,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,129.07,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,126.9,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,138.83,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,131.24,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,135.57,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,131.24,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,135.57,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,130.15,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,144.25,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,145.34,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,143.17,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,149.67,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,149.67,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,156.18,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,169.2,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,170.28,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,172.45,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,168.11,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,181.13,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,183.3,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,182.21,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,182.21,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,190.89,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,195.23,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,202.82,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,231.02,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,45.55,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,50.98,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,58.57,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,62.91,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,58.57,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,58.57,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,56.4,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,59.65,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,61.82,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,61.82,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,65.08,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,59.65,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,61.82,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,65.08,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,70.5,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,70.5,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,70.5,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,71.58,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,70.5,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,69.41,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,70.5,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,69.41,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,74.84,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,78.09,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,81.34,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,82.43,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,85.68,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,86.77,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,79.18,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,79.18,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,75.92,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,74.84,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,96.53,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,93.28,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,96.53,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,105.21,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,111.71,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,50.98,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,55.31,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,56.4,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,59.65,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,58.57,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,57.48,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,59.65,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,71.58,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,75.92,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,72.67,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,70.5,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,74.84,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,72.67,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,70.5,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,70.5,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,72.67,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,77.01,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,79.18,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,78.09,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,75.92,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,70.5,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,71.58,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,72.67,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,72.67,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,70.5,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,72.67,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,71.58,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,85.68,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,85.68,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,85.68,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,88.94,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,88.94,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,87.85,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,92.19,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,90.02,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,94.36,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,99.78,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,96.53,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,124.73,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Foshan China,colony,01/01/1980,1,decimal,23.02,113.12,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,123.64,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,135.57,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,159.44,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,168.11,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,193.06,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,196.31,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,199.57,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,209.33,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,214.75,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,218,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,208.24,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,210.41,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,214.75,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,224.51,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,223.43,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,223.43,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,227.77,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,223.43,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,231.02,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,232.1,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,236.44,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,247.29,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,239.7,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,247.29,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,265.73,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,283.08,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,292.84,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,295.01,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,285.25,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,316.7,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,456.62,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,98.7,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,96.53,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,93.28,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,90.02,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,91.11,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,88.94,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,98.7,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,107.38,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,112.8,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,101.95,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,101.95,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,104.12,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,110.63,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,112.8,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,112.8,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,113.88,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,114.97,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,118.22,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,121.48,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,118.22,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,127.98,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,139.91,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,134.49,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,127.98,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,165.94,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,185.47,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,189.8,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,197.4,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,189.8,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,227.77,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,62.91,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,61.82,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,61.82,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,62.91,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,63.99,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,71.58,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,70.5,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,81.34,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,80.26,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,80.26,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,75.92,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,74.84,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,75.92,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,74.84,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,77.01,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,79.18,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,80.26,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,79.18,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,79.18,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,81.34,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,81.34,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,82.43,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,82.43,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,82.43,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,85.68,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,91.11,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,90.02,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,90.02,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,93.28,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,95.44,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,91.11,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,90.02,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,93.28,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,94.36,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,94.36,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,88.94,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,85.68,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,106.29,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,107.38,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,98.7,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,90.02,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,fecundity,individual-level lifetime eggs,88.94,eggs individual-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Crema Italy,colony,01/09/2017,2,decimal,45.36,9.69,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Carlassara et al. 2024. Population specific responses to developmental temperature in the arboviral vector Aedes albopictus: Implications for climate change. Global Change Biol.,10.1111/gcb.17226,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/03/2024
NA,NA,development time,mean duration of life stage,1.1,days,0.1,0.1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Thursday Island Queensland Australia,colony,NA,0,decimal,-10.35,142.13,Aedes aegypti,Yellow fever mosquito,NA,NA,134,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tun-Lin et al. 2000. Effects of temperature and larval diet on development rates and survival of the dengue vector Aedes aegypti in north Queensland Australia. Med. Vet. Entomol. 14:31-37,10.1046/j.1365-2915.2000.00207.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2000
NA,NA,development time,mean duration of life stage,13,days,4.1,4.1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Thursday Island Queensland Australia,colony,NA,0,decimal,-10.35,142.13,Aedes aegypti,Yellow fever mosquito,NA,NA,47,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tun-Lin et al. 2000. Effects of temperature and larval diet on development rates and survival of the dengue vector Aedes aegypti in north Queensland Australia. Med. Vet. Entomol. 14:31-37,10.1046/j.1365-2915.2000.00207.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2000
NA,NA,development time,mean duration of life stage,4.1,days,0.2,0.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Thursday Island Queensland Australia,colony,NA,0,decimal,-10.35,142.13,Aedes aegypti,Yellow fever mosquito,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tun-Lin et al. 2000. Effects of temperature and larval diet on development rates and survival of the dengue vector Aedes aegypti in north Queensland Australia. Med. Vet. Entomol. 14:31-37,10.1046/j.1365-2915.2000.00207.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2000
NA,NA,development time,mean duration of life stage,3,days,0.3,0.3,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Thursday Island Queensland Australia,colony,NA,0,decimal,-10.35,142.13,Aedes aegypti,Yellow fever mosquito,NA,NA,176,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tun-Lin et al. 2000. Effects of temperature and larval diet on development rates and survival of the dengue vector Aedes aegypti in north Queensland Australia. Med. Vet. Entomol. 14:31-37,10.1046/j.1365-2915.2000.00207.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2000
NA,NA,development time,mean duration of life stage,2.2,days,0.2,0.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Thursday Island Queensland Australia,colony,NA,0,decimal,-10.35,142.13,Aedes aegypti,Yellow fever mosquito,NA,NA,176,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tun-Lin et al. 2000. Effects of temperature and larval diet on development rates and survival of the dengue vector Aedes aegypti in north Queensland Australia. Med. Vet. Entomol. 14:31-37,10.1046/j.1365-2915.2000.00207.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2000
NA,NA,development time,mean duration of life stage,2.4,days,0.2,0.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Thursday Island Queensland Australia,colony,NA,0,decimal,-10.35,142.13,Aedes aegypti,Yellow fever mosquito,NA,NA,134,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tun-Lin et al. 2000. Effects of temperature and larval diet on development rates and survival of the dengue vector Aedes aegypti in north Queensland Australia. Med. Vet. Entomol. 14:31-37,10.1046/j.1365-2915.2000.00207.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2000
NA,NA,development time,mean duration of life stage,4,days,1.5,1.5,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Thursday Island Queensland Australia,colony,NA,0,decimal,-10.35,142.13,Aedes aegypti,Yellow fever mosquito,NA,NA,47,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tun-Lin et al. 2000. Effects of temperature and larval diet on development rates and survival of the dengue vector Aedes aegypti in north Queensland Australia. Med. Vet. Entomol. 14:31-37,10.1046/j.1365-2915.2000.00207.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2000
NA,NA,development time,mean duration of life stage,3.6,days,0.3,0.3,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Thursday Island Queensland Australia,colony,NA,0,decimal,-10.35,142.13,Aedes aegypti,Yellow fever mosquito,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tun-Lin et al. 2000. Effects of temperature and larval diet on development rates and survival of the dengue vector Aedes aegypti in north Queensland Australia. Med. Vet. Entomol. 14:31-37,10.1046/j.1365-2915.2000.00207.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2000
NA,NA,development time,mean duration of life stage,2.5,days,0.1,0.1,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Thursday Island Queensland Australia,colony,NA,0,decimal,-10.35,142.13,Aedes aegypti,Yellow fever mosquito,NA,NA,176,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tun-Lin et al. 2000. Effects of temperature and larval diet on development rates and survival of the dengue vector Aedes aegypti in north Queensland Australia. Med. Vet. Entomol. 14:31-37,10.1046/j.1365-2915.2000.00207.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2000
NA,NA,development time,mean duration of life stage,1.7,days,0.2,0.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Thursday Island Queensland Australia,colony,NA,0,decimal,-10.35,142.13,Aedes aegypti,Yellow fever mosquito,NA,NA,176,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tun-Lin et al. 2000. Effects of temperature and larval diet on development rates and survival of the dengue vector Aedes aegypti in north Queensland Australia. Med. Vet. Entomol. 14:31-37,10.1046/j.1365-2915.2000.00207.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2000
NA,NA,development time,mean duration of life stage,1.3,days,0.2,0.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Thursday Island Queensland Australia,colony,NA,0,decimal,-10.35,142.13,Aedes aegypti,Yellow fever mosquito,NA,NA,134,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tun-Lin et al. 2000. Effects of temperature and larval diet on development rates and survival of the dengue vector Aedes aegypti in north Queensland Australia. Med. Vet. Entomol. 14:31-37,10.1046/j.1365-2915.2000.00207.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2000
NA,NA,development time,mean duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Thursday Island Queensland Australia,colony,NA,0,decimal,-10.35,142.13,Aedes aegypti,Yellow fever mosquito,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tun-Lin et al. 2000. Effects of temperature and larval diet on development rates and survival of the dengue vector Aedes aegypti in north Queensland Australia. Med. Vet. Entomol. 14:31-37,10.1046/j.1365-2915.2000.00207.x,NA,NA,Paul Huxley,phuxly@gmail.com,trait value set to zero because mortality was complete at this temperature. interactor1number is the number of individuals that did not survive life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2000
NA,NA,development time,mean duration of life stage,39.7,days,2.3,2.3,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Thursday Island Queensland Australia,colony,NA,0,decimal,-10.35,142.13,Aedes aegypti,Yellow fever mosquito,NA,NA,47,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tun-Lin et al. 2000. Effects of temperature and larval diet on development rates and survival of the dengue vector Aedes aegypti in north Queensland Australia. Med. Vet. Entomol. 14:31-37,10.1046/j.1365-2915.2000.00207.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2000
NA,NA,development time,mean duration of life stage,13.7,days,0.2,0.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Thursday Island Queensland Australia,colony,NA,0,decimal,-10.35,142.13,Aedes aegypti,Yellow fever mosquito,NA,NA,180,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tun-Lin et al. 2000. Effects of temperature and larval diet on development rates and survival of the dengue vector Aedes aegypti in north Queensland Australia. Med. Vet. Entomol. 14:31-37,10.1046/j.1365-2915.2000.00207.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2000
NA,NA,development time,mean duration of life stage,9.7,days,0.2,0.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Thursday Island Queensland Australia,colony,NA,0,decimal,-10.35,142.13,Aedes aegypti,Yellow fever mosquito,NA,NA,176,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tun-Lin et al. 2000. Effects of temperature and larval diet on development rates and survival of the dengue vector Aedes aegypti in north Queensland Australia. Med. Vet. Entomol. 14:31-37,10.1046/j.1365-2915.2000.00207.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2000
NA,NA,development time,mean duration of life stage,8.4,days,0.2,0.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Thursday Island Queensland Australia,colony,NA,0,decimal,-10.35,142.13,Aedes aegypti,Yellow fever mosquito,NA,NA,176,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tun-Lin et al. 2000. Effects of temperature and larval diet on development rates and survival of the dengue vector Aedes aegypti in north Queensland Australia. Med. Vet. Entomol. 14:31-37,10.1046/j.1365-2915.2000.00207.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2000
NA,NA,development time,mean duration of life stage,7.2,days,0.2,0.2,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Thursday Island Queensland Australia,colony,NA,0,decimal,-10.35,142.13,Aedes aegypti,Yellow fever mosquito,NA,NA,134,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tun-Lin et al. 2000. Effects of temperature and larval diet on development rates and survival of the dengue vector Aedes aegypti in north Queensland Australia. Med. Vet. Entomol. 14:31-37,10.1046/j.1365-2915.2000.00207.x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals that did survived life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2000
NA,NA,development time,mean duration of life stage,0,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Thursday Island Queensland Australia,colony,NA,0,decimal,-10.35,142.13,Aedes aegypti,Yellow fever mosquito,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,40,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tun-Lin et al. 2000. Effects of temperature and larval diet on development rates and survival of the dengue vector Aedes aegypti in north Queensland Australia. Med. Vet. Entomol. 14:31-37,10.1046/j.1365-2915.2000.00207.x,NA,NA,Paul Huxley,phuxly@gmail.com,trait value set to zero because mortality was complete at this temperature. interactor1number is the number of individuals that did not survive life stage from the initial number of individuals at the start of the experiment (n=200),TRUE,01/01/2000
NA,WES001,development time,median duration of life stage,24.5,days,23,26,IQR,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Palm Beach County Florida,field,01/06/2007,4,decimal,26.7097,-80.0641,Aedes albopictus,NA,NA,NA,515,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,18,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Westbrook et al. 2010. Larval environmental temperature and the susceptibility of Aedes albopictus Skuse (Diptera: Culicidae) to chikungunya virus. Vector-Borne and Zoonotic Diseases 10:3,10.1089/vbz.2009.0035,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2010
NA,WES001,development time,median duration of life stage,11,days,10,11.5,IQR,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Palm Beach County Florida,field,01/06/2007,4,decimal,26.7097,-80.0641,Aedes albopictus,NA,NA,NA,556,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Westbrook et al. 2010. Larval environmental temperature and the susceptibility of Aedes albopictus Skuse (Diptera: Culicidae) to chikungunya virus. Vector-Borne and Zoonotic Diseases 10:3,10.1089/vbz.2009.0035,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2010
NA,WES001,development time,median duration of life stage,9,days,8.5,9.5,IQR,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Palm Beach County Florida,field,01/06/2007,4,decimal,26.7097,-80.0641,Aedes albopictus,NA,NA,NA,445,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Westbrook et al. 2010. Larval environmental temperature and the susceptibility of Aedes albopictus Skuse (Diptera: Culicidae) to chikungunya virus. Vector-Borne and Zoonotic Diseases 10:3,10.1089/vbz.2009.0035,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2010
NA,WES001,development time,median duration of life stage,22.5,days,21.5,24,IQR,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Palm Beach County Florida,field,01/06/2007,4,decimal,26.7097,-80.0641,Aedes albopictus,NA,NA,NA,817,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,18,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Westbrook et al. 2010. Larval environmental temperature and the susceptibility of Aedes albopictus Skuse (Diptera: Culicidae) to chikungunya virus. Vector-Borne and Zoonotic Diseases 10:3,10.1089/vbz.2009.0035,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2010
NA,WES001,development time,median duration of life stage,10,days,9.5,10.5,IQR,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Palm Beach County Florida,field,01/06/2007,4,decimal,26.7097,-80.0641,Aedes albopictus,NA,NA,NA,860,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,24,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Westbrook et al. 2010. Larval environmental temperature and the susceptibility of Aedes albopictus Skuse (Diptera: Culicidae) to chikungunya virus. Vector-Borne and Zoonotic Diseases 10:3,10.1089/vbz.2009.0035,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2010
NA,WES001,development time,median duration of life stage,8,days,7.5,8.5,IQR,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Palm Beach County Florida,field,01/06/2007,4,decimal,26.7097,-80.0641,Aedes albopictus,NA,NA,NA,791,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,32,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Westbrook et al. 2010. Larval environmental temperature and the susceptibility of Aedes albopictus Skuse (Diptera: Culicidae) to chikungunya virus. Vector-Borne and Zoonotic Diseases 10:3,10.1089/vbz.2009.0035,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2010
NA,MSS0066,development time,mean duration of life stage,48.8,days,4.6,4.6,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing water type,binomial (1=tap water 0=rainwater),1,NA,NA,NA,NA,NA,NA,Adelaide Australia,field (houses in urban area),01/02/2009,4,decimal,-34.5539,138.36,Aedes notoscriptus,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Williams and Rau 2011. Growth and development performance of the ubiquitous urban mosquito Aedes notoscriptus (Diptera: Culicidae) in Australia varies with water type and temperature. Australian Journal of Entomology 50:2,10.1111/j.1440-6055.2010.00806.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2011
NA,MSS0066,development time,mean duration of life stage,40.8,days,7.9,7.9,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing water type,binomial (1=tap water 0=rainwater),1,NA,NA,NA,NA,NA,NA,Adelaide Australia,field (houses in urban area),01/02/2009,4,decimal,-34.5539,138.36,Aedes notoscriptus,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Williams and Rau 2011. Growth and development performance of the ubiquitous urban mosquito Aedes notoscriptus (Diptera: Culicidae) in Australia varies with water type and temperature. Australian Journal of Entomology 50:2,10.1111/j.1440-6055.2010.00806.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2011
NA,MSS0066,development time,mean duration of life stage,27.7,days,1.6,1.6,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing water type,binomial (1=tap water 0=rainwater),1,NA,NA,NA,NA,NA,NA,Adelaide Australia,field (houses in urban area),01/02/2009,4,decimal,-34.5539,138.36,Aedes notoscriptus,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Williams and Rau 2011. Growth and development performance of the ubiquitous urban mosquito Aedes notoscriptus (Diptera: Culicidae) in Australia varies with water type and temperature. Australian Journal of Entomology 50:2,10.1111/j.1440-6055.2010.00806.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2011
NA,MSS0066,development time,mean duration of life stage,7.6,days,1.6,1.6,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing water type,binomial (1=tap water 0=rainwater),1,NA,NA,NA,NA,NA,NA,Adelaide Australia,field (houses in urban area),01/02/2009,4,decimal,-34.5539,138.36,Aedes notoscriptus,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Williams and Rau 2011. Growth and development performance of the ubiquitous urban mosquito Aedes notoscriptus (Diptera: Culicidae) in Australia varies with water type and temperature. Australian Journal of Entomology 50:2,10.1111/j.1440-6055.2010.00806.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2011
NA,MSS0066,development time,mean duration of life stage,15.5,days,2.8,2.8,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing water type,binomial (1=tap water 0=rainwater),0,NA,NA,NA,NA,NA,NA,Adelaide Australia,field (houses in urban area),01/02/2009,4,decimal,-34.5539,138.36,Aedes notoscriptus,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Williams and Rau 2011. Growth and development performance of the ubiquitous urban mosquito Aedes notoscriptus (Diptera: Culicidae) in Australia varies with water type and temperature. Australian Journal of Entomology 50:2,10.1111/j.1440-6055.2010.00806.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2011
NA,MSS0066,development time,mean duration of life stage,16.2,days,0.6,0.6,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing water type,binomial (1=tap water 0=rainwater),0,NA,NA,NA,NA,NA,NA,Adelaide Australia,field (houses in urban area),01/02/2009,4,decimal,-34.5539,138.36,Aedes notoscriptus,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Williams and Rau 2011. Growth and development performance of the ubiquitous urban mosquito Aedes notoscriptus (Diptera: Culicidae) in Australia varies with water type and temperature. Australian Journal of Entomology 50:2,10.1111/j.1440-6055.2010.00806.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2011
NA,MSS0066,development time,mean duration of life stage,10,days,0.1,0.1,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing water type,binomial (1=tap water 0=rainwater),0,NA,NA,NA,NA,NA,NA,Adelaide Australia,field (houses in urban area),01/02/2009,4,decimal,-34.5539,138.36,Aedes notoscriptus,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Williams and Rau 2011. Growth and development performance of the ubiquitous urban mosquito Aedes notoscriptus (Diptera: Culicidae) in Australia varies with water type and temperature. Australian Journal of Entomology 50:2,10.1111/j.1440-6055.2010.00806.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2011
NA,MSS0066,development time,mean duration of life stage,6.8,days,0.1,0.1,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,rearing water type,binomial (1=tap water 0=rainwater),0,NA,NA,NA,NA,NA,NA,Adelaide Australia,field (houses in urban area),01/02/2009,4,decimal,-34.5539,138.36,Aedes notoscriptus,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,29,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Williams and Rau 2011. Growth and development performance of the ubiquitous urban mosquito Aedes notoscriptus (Diptera: Culicidae) in Australia varies with water type and temperature. Australian Journal of Entomology 50:2,10.1111/j.1440-6055.2010.00806.x,Shocket et al. 2018. Temperature explains broad patterns of Ross River virus transmission. eLife 7:e37762,10.7554/eLife.37762,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2011
NA,PHX1,development rate,mean predicted rate of life stage completion,0,days-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX1,development rate,mean predicted rate of life stage completion,0,days-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,10.41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX1,development rate,mean predicted rate of life stage completion,0.02,days-1,5e-4,5e-4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,14.74,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX1,development rate,mean predicted rate of life stage completion,0.03,days-1,5e-4,5e-4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,14.84,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX1,development rate,mean predicted rate of life stage completion,0.01,days-1,9e-4,9e-4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,14.92,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX1,development rate,mean predicted rate of life stage completion,0.07,days-1,7e-4,7e-4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,18.86,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX1,development rate,mean predicted rate of life stage completion,0.06,days-1,4e-4,4e-4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,19.04,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX1,development rate,mean predicted rate of life stage completion,0.06,days-1,9e-4,9e-4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,19.18,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,NA,development time,mean duration of life stage,29.95,days,0.79,0.79,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,233,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,18,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,01/01/2009
NA,NA,development time,mean duration of life stage,18.81,days,0.7,0.7,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,22,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,01/01/2009
NA,NA,development time,mean duration of life stage,12.15,days,0.6,0.6,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,26,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,01/01/2009
NA,NA,development time,mean duration of life stage,8.98,days,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,248,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,28,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,01/01/2009
NA,NA,development time,mean duration of life stage,9.18,days,0.41,0.41,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,241,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,32,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,01/01/2009
NA,NA,development time,mean duration of life stage,10.58,days,0.87,0.87,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,230,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (egg to adult),NA,34,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,01/01/2009
NA,NA,development time,mean duration of life stage,19.73,days,0.79,0.79,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,233,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,18,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,estimated from table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,01/01/2009
NA,NA,development time,mean duration of life stage,10.95,days,0.7,0.7,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,22,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,estimated from table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,01/01/2009
NA,NA,development time,mean duration of life stage,7.18,days,0.6,0.6,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,estimated from table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,01/01/2009
NA,NA,development time,mean duration of life stage,5.73,days,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,248,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,28,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,estimated from table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,01/01/2009
NA,NA,development time,mean duration of life stage,5.19,days,0.41,0.41,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,241,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,32,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,estimated from table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,01/01/2009
NA,NA,development time,mean duration of life stage,4.87,days,0.87,0.87,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,230,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,estimated from table 3,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=50,TRUE,01/01/2009
NA,NA,survival,percentage surviving life stage,93.33,percent,1.6,1.6,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,233,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,18,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,01/01/2009
NA,NA,survival,percentage surviving life stage,96.33,percent,0.6,0.6,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,22,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,01/01/2009
NA,NA,survival,percentage surviving life stage,97.61,percent,0.9,0.9,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,240,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,26,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,01/01/2009
NA,NA,survival,percentage surviving life stage,99,percent,0.6,0.6,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,248,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,28,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,01/01/2009
NA,NA,survival,percentage surviving life stage,97.33,percent,0.8,0.8,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,241,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,32,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,01/01/2009
NA,NA,survival,percentage surviving life stage,92.33,percent,1.6,1.6,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Remigio Paraiba Brazil,field,NA,0,decimal,-6.966944,-35.791389,Aedes aegypti,NA,NA,NA,230,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult emergence),NA,34,celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Beserra et al. 2009. Efeitos da temperatura no ciclo de vida exigencias termicas e estimativas do numero de geracoes anuais de Aedes aegypti (Diptera Culicidae). Iheringia Serie Zoologia. 99:2,10.1590/S0073-47212009000200004,NA,NA,Tomas Valentin San Miguel,tomas.sanmiguel@ig.edu.ar,interactor1number is the number of individuals that survived life stage from an initial n=250,TRUE,01/01/2009
NA,BRI007,body size,mean cubic value of wing length,41.19,mm3,3.77,3.77,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,31,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,17,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI007,body size,mean cubic value of wing length,21.42,mm3,5.45,5.45,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI007,body size,mean cubic value of wing length,25.86,mm3,3.97,3.97,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI008,body size,average wing length,3.45,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,31,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,17,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI008,body size,average wing length,2.78,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI008,body size,average wing length,2.96,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI009,hematin content,NA,20.24,ug,5.19,NA,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,31,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,17,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI009,hematin content,NA,14.46,ug,5.53,NA,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI009,hematin content,NA,18.23,ug,7.57,NA,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI010,hematin blood volume,NA,3.1,ul,0.8,NA,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,31,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,17,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI010,hematin blood volume,NA,2.2,ul,0.8,NA,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI010,hematin blood volume,NA,2.8,ul,1.1,NA,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI011,hematin blood protein,NA,2.13,cal,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,31,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,17,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI011,hematin blood protein,NA,1.52,cal,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI011,hematin blood protein,NA,1.91,cal,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI012,fecundity,average number of eggs matured per individual,76.5,eggs individual-1,18.2,18.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,33,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,17,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI012,fecundity,average number of eggs matured per individual,46.5,eggs individual-1,18.5,18.5,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,37,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI012,fecundity,average number of eggs matured per individual,56.4,eggs individual-1,24.6,24.6,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI013,ovarian content (protein),NA,0.49,cal,0.11,0.11,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,17,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI013,ovarian content (protein),NA,0.29,cal,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI013,ovarian content (protein),NA,0.38,cal,0.17,0.17,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI014,ovarian content (lipid),NA,0.55,cal,0.08,0.08,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,17,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI014,ovarian content (lipid),NA,0.25,cal,0.13,0.13,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI014,ovarian content (lipid),NA,0.27,cal,0.12,0.12,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI015,ovarian content (glycogen),NA,0.04,cal,0.02,0.02,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,17,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI015,ovarian content (glycogen),NA,0.02,cal,0.01,0.01,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI015,ovarian content (glycogen),NA,0.03,cal,0.02,0.02,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI016,oocyte content (protein),NA,6.3,mcal,0.7,0.7,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,17,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI016,oocyte content (protein),NA,6.4,mcal,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI016,oocyte content (protein),NA,6.5,mcal,0.5,0.5,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI017,oocyte content (lipid),NA,7,mcal,0.7,0.7,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,17,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI017,oocyte content (lipid),NA,5.1,mcal,0.4,0.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI017,oocyte content (lipid),NA,5.1,mcal,0.4,0.4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI018,oocyte content (glycogen),NA,0.5,mcal,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,17,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI018,oocyte content (glycogen),NA,0.5,mcal,0.1,0.1,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI018,oocyte content (glycogen),NA,0.6,mcal,0.2,0.2,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI019,yolk per oocyte (protein) measured as specific caloric content (SSCC-value),NA,0.0118,SSCC,0.003,0.003,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,17,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI019,yolk per oocyte (protein) measured as specific caloric content (SSCC-value),NA,0.0121,SSCC,0.003,0.003,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI019,yolk per oocyte (protein) measured as specific caloric content (SSCC-value),NA,0.0139,SSCC,0.0049,0.0049,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI020,yolk per oocyte (lipid) (SSCC-value),NA,0.014,SSCC,0.0022,0.0022,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,17,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI020,yolk per oocyte (lipid) (SSCC-value),NA,0.0104,SSCC,0.0026,0.0026,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI020,yolk per oocyte (lipid) (SSCC-value),NA,0.0114,SSCC,0.0051,0.0051,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI021,yolk per oocyte (glycogen) (SSCC-value),NA,0.001,SSCC,4e-4,4e-4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,17,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI021,yolk per oocyte (glycogen) (SSCC-value),NA,0.0012,SSCC,5e-4,5e-4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,BRI021,yolk per oocyte (glycogen) (SSCC-value),NA,0.0014,SSCC,7e-4,7e-4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Louisiana USA,colony,NA,0,decimal,31,-92,Aedes albopictus,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 5,Briegel et al. 2001. Aedes albopictus (Diptera: Culicidae): Physiological Aspects of Development and Reproduction. J. Med. Entomol. 38:4,10.1603/0022-2585-38.4.566,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2001
NA,PHX1,development rate,mean predicted rate of life stage completion,0.1,days-1,0.001,0.001,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26.56,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX1,development rate,mean predicted rate of life stage completion,0.11,days-1,0.001,0.001,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26.84,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX1,development rate,mean predicted rate of life stage completion,0.12,days-1,0.001,0.001,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26.85,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX1,development rate,mean predicted rate of life stage completion,0.16,days-1,0.003,0.003,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,30.83,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX1,development rate,mean predicted rate of life stage completion,0.14,days-1,0.002,0.002,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,31.61,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX1,development rate,mean predicted rate of life stage completion,0.2,days-1,0.003,0.003,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34.95,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX1,development rate,mean predicted rate of life stage completion,0.12,days-1,0.003,0.003,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,36.47,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX1,development rate,mean predicted rate of life stage completion,0.16,days-1,0.005,0.005,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,36.55,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX1,development rate,mean predicted rate of life stage completion,0,days-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,39.95,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX1,development rate,mean predicted rate of life stage completion,0,days-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,40.16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PHX1,development rate,mean predicted rate of life stage completion,0,days-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,40.64,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 10,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PXH1,development rate,observed rate of life stage completion,0,days-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,10.04,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PXH1,development rate,observed rate of life stage completion,0,days-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,10.41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PXH1,development rate,observed rate of life stage completion,0,days-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,10.41,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PXH1,development rate,observed rate of life stage completion,0.011,days-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,14.9,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PXH1,development rate,observed rate of life stage completion,0.015,days-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,14.72,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PXH1,development rate,observed rate of life stage completion,0.024,days-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,14.87,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PXH1,development rate,observed rate of life stage completion,0.06,days-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,19.14,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PXH1,development rate,observed rate of life stage completion,0.063,days-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,19.03,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PXH1,development rate,observed rate of life stage completion,0.066,days-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,18.92,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PXH1,development rate,observed rate of life stage completion,0.099,days-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26.61,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PXH1,development rate,observed rate of life stage completion,0.108,days-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26.91,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PXH1,development rate,observed rate of life stage completion,0.119,days-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,26.88,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PXH1,development rate,observed rate of life stage completion,0.158,days-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,30.93,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PXH1,development rate,observed rate of life stage completion,0.134,days-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,31.71,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PXH1,development rate,observed rate of life stage completion,0.195,days-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,34.99,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PXH1,development rate,observed rate of life stage completion,0.159,days-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,36.65,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PXH1,development rate,observed rate of life stage completion,0.123,days-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,36.53,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PXH1,development rate,observed rate of life stage completion,0,days-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,40.04,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PXH1,development rate,observed rate of life stage completion,0,days-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,40.15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,PXH1,development rate,observed rate of life stage completion,0,days-1,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Marilia Brazil,field,NA,0,decimal,-22.213889,-49.945833,Aedes aegypti,Yellow fever mosquito,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),NA,40.63,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Yang et al. 2009. Assessing the effects of temperature on the population of Aedes aegypti the vector of dengue. Epidemiology & Infection 137,10.1017/S0950268809002040,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2009
NA,NA,infection rate,proportion saliva positive for ZIKV as a function of time (secondstressor) and temperature,0,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,5,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,31,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion saliva positive for ZIKV as a function of time (secondstressor) and temperature,0.092,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,7,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,31,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion saliva positive for ZIKV as a function of time (secondstressor) and temperature,0.062,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,10,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,31,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion saliva positive for ZIKV as a function of time (secondstressor) and temperature,0.181,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,14,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,31,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion saliva positive for ZIKV as a function of time (secondstressor) and temperature,0.211,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,17,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,31,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion saliva positive for ZIKV as a function of time (secondstressor) and temperature,0.144,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,21,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,31,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion saliva positive for ZIKV as a function of time (secondstressor) and temperature,0.296,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,28,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,31,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion saliva positive for ZIKV as a function of time (secondstressor) and temperature,0,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,7,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion saliva positive for ZIKV as a function of time (secondstressor) and temperature,0.073,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,10,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion saliva positive for ZIKV as a function of time (secondstressor) and temperature,0.154,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,14,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion saliva positive for ZIKV as a function of time (secondstressor) and temperature,0.062,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,17,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion saliva positive for ZIKV as a function of time (secondstressor) and temperature,0.202,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,21,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion saliva positive for ZIKV as a function of time (secondstressor) and temperature,0.252,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,28,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion saliva positive for ZIKV as a function of time (secondstressor) and temperature,0,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,7,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,24,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion saliva positive for ZIKV as a function of time (secondstressor) and temperature,0.08,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,10,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,24,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion saliva positive for ZIKV as a function of time (secondstressor) and temperature,0.133,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,14,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,24,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion saliva positive for ZIKV as a function of time (secondstressor) and temperature,0.119,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,17,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,24,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion saliva positive for ZIKV as a function of time (secondstressor) and temperature,0.078,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,21,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,24,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion saliva positive for ZIKV as a function of time (secondstressor) and temperature,0.25,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,28,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,24,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion saliva positive for ZIKV as a function of time (secondstressor) and temperature,0,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,7,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion saliva positive for ZIKV as a function of time (secondstressor) and temperature,0.064,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,10,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion saliva positive for ZIKV as a function of time (secondstressor) and temperature,0,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,14,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion saliva positive for ZIKV as a function of time (secondstressor) and temperature,0.062,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,17,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion saliva positive for ZIKV as a function of time (secondstressor) and temperature,0.2,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,21,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion saliva positive for ZIKV as a function of time (secondstressor) and temperature,0.142,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,28,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion saliva positive for ZIKV as a function of time (secondstressor) and temperature,0.002,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,10,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,19,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion saliva positive for ZIKV as a function of time (secondstressor) and temperature,0.002,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,14,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,19,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion saliva positive for ZIKV as a function of time (secondstressor) and temperature,0.071,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,17,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,19,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion saliva positive for ZIKV as a function of time (secondstressor) and temperature,0.076,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,21,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,19,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion saliva positive for ZIKV as a function of time (secondstressor) and temperature,0.144,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,28,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,19,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion saliva positive for ZIKV as a function of time (secondstressor) and temperature,0,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,10,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,17,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion saliva positive for ZIKV as a function of time (secondstressor) and temperature,0,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,14,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,17,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion saliva positive for ZIKV as a function of time (secondstressor) and temperature,0,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,17,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,17,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion saliva positive for ZIKV as a function of time (secondstressor) and temperature,0,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,21,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,17,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion saliva positive for ZIKV as a function of time (secondstressor) and temperature,0,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,28,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,17,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion bodies positive for ZIKV as a function of time (secondstressor) and temperature,0.002,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,5,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,31,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion bodies positive for ZIKV as a function of time (secondstressor) and temperature,0.182,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,7,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,31,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion bodies positive for ZIKV as a function of time (secondstressor) and temperature,0.126,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,10,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,31,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion bodies positive for ZIKV as a function of time (secondstressor) and temperature,0.365,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,14,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,31,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion bodies positive for ZIKV as a function of time (secondstressor) and temperature,0.265,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,17,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,19,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,31,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion bodies positive for ZIKV as a function of time (secondstressor) and temperature,0.284,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,21,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,31,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion bodies positive for ZIKV as a function of time (secondstressor) and temperature,0.355,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,28,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,31,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion bodies positive for ZIKV as a function of time (secondstressor) and temperature,0.002,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,7,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion bodies positive for ZIKV as a function of time (secondstressor) and temperature,0.145,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,10,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion bodies positive for ZIKV as a function of time (secondstressor) and temperature,0.232,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,14,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion bodies positive for ZIKV as a function of time (secondstressor) and temperature,0.126,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,17,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion bodies positive for ZIKV as a function of time (secondstressor) and temperature,0.27,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,21,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion bodies positive for ZIKV as a function of time (secondstressor) and temperature,0.251,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,28,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion bodies positive for ZIKV as a function of time (secondstressor) and temperature,0.002,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,7,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,24,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion bodies positive for ZIKV as a function of time (secondstressor) and temperature,0.235,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,10,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,24,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion bodies positive for ZIKV as a function of time (secondstressor) and temperature,0.334,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,14,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,24,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion bodies positive for ZIKV as a function of time (secondstressor) and temperature,0.294,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,17,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,17,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,24,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion bodies positive for ZIKV as a function of time (secondstressor) and temperature,0.154,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,21,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,24,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion bodies positive for ZIKV as a function of time (secondstressor) and temperature,0.313,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,28,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,24,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion bodies positive for ZIKV as a function of time (secondstressor) and temperature,0.002,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,7,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion bodies positive for ZIKV as a function of time (secondstressor) and temperature,0.187,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,10,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion bodies positive for ZIKV as a function of time (secondstressor) and temperature,0.182,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,14,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion bodies positive for ZIKV as a function of time (secondstressor) and temperature,0.251,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,17,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,16,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion bodies positive for ZIKV as a function of time (secondstressor) and temperature,0.334,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,21,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion bodies positive for ZIKV as a function of time (secondstressor) and temperature,0.216,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,28,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion bodies positive for ZIKV as a function of time (secondstressor) and temperature,0,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,10,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,19,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion bodies positive for ZIKV as a function of time (secondstressor) and temperature,0.182,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,14,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,19,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion bodies positive for ZIKV as a function of time (secondstressor) and temperature,0.334,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,17,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,19,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion bodies positive for ZIKV as a function of time (secondstressor) and temperature,0.308,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,21,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,13,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,19,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion bodies positive for ZIKV as a function of time (secondstressor) and temperature,0.287,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,28,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,19,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion bodies positive for ZIKV as a function of time (secondstressor) and temperature,0,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,10,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,14,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,17,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion bodies positive for ZIKV as a function of time (secondstressor) and temperature,0,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,14,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,11,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,17,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion bodies positive for ZIKV as a function of time (secondstressor) and temperature,0,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,17,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,15,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,17,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion bodies positive for ZIKV as a function of time (secondstressor) and temperature,0,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,21,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,17,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,infection rate,proportion bodies positive for ZIKV as a function of time (secondstressor) and temperature,0,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,time,duration after adult emergence,28,days,NA,NA,NA,NA,NA,Rome Italy,colony,01/04/2016,0,decimal,41.901389,12.520556,Aedes albopictus,NA,NA,NA,12,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,17,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Blagrove et al. 2020. Potential for Zika virus transmission by mosquitoes in temperate climates. Proc. R. Soc. 287: 20200119,10.1098/rspb.2020.0119,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1 is the total number of saliva samples tested from surviving individuals (either positive or negative) (note that all saliva positive mosquitoes were also body positive),TRUE,01/01/2020
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,51,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,51,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,52,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,55,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,59,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,62,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,65,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,65,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,66,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,66,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,66,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,67,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,68,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,68,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,75,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,46,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,46,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,46,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,46,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,55,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,55,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,56,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,56,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,56,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,57,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,58,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,44,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,45,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,45,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,45,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,45,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,45,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,45,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,47,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,47,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,47,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,48,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,48,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,49,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,49,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,49,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,49,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,50,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,45,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,45,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,47,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,54,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,54,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,55,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,56,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,57,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,57,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,57,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,57,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,59,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,63,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,68,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,68,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,69,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,69,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,70,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,70,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,70,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,71,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,73,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,74,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,75,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,48,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,49,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,49,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,50,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,50,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,50,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,53,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,53,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,55,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,56,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,44,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,44,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,45,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,46,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,47,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,47,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,47,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,47,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,48,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,50,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,50,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,50,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,50,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,44,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,45,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,46,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,49,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,49,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,52,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,53,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,56,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,57,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,57,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,59,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,59,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,60,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,61,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,64,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,65,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,71,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,71,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,71,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,71,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,72,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,72,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,72,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,72,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,73,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,75,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,76,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,44,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,48,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,54,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,45,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,45,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,45,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,45,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,46,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,47,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,47,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,47,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,49,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,49,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,49,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,49,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,49,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,50,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,50,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,50,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,50,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,50,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,50,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,49,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,50,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,53,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,57,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,59,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,72,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,72,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,73,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,74,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,45,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,46,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,49,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,49,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,49,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,50,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,59,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,61,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,44,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,44,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,45,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,45,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,46,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,46,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,48,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,48,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,48,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,48,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,48,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,48,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,48,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,50,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,50,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,50,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,44,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,44,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,44,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,44,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,47,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,52,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,53,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,53,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,58,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,62,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,62,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,63,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,68,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,68,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,68,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,69,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,72,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,75,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,75,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,51,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,51,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,52,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,52,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,52,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,53,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,53,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,53,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,55,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,56,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,58,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,44,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,50,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,50,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,44,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,44,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,48,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,48,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,49,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,51,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,57,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,57,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,58,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,58,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,58,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,61,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,70,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,70,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,71,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,71,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,74,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,74,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,74,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,75,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,75,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,75,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,75,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,75,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,75,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,45,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,48,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,50,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,51,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,51,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,52,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,52,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,59,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,44,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,44,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,45,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,45,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,46,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,47,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,47,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,47,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,47,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,48,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,50,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,50,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,50,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,50,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,44,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,44,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,44,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,44,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,44,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,45,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,45,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,45,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,45,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,44,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,45,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,49,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,50,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,55,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,55,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,56,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,60,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,60,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,62,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,64,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,65,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,66,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,71,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,75,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,75,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,75,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,47,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,48,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,48,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,48,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,53,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,53,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,55,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,59,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,59,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,60,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,44,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,44,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,44,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,44,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,44,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,45,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,46,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,46,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,47,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,47,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,47,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,47,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,47,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,48,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,48,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,48,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,50,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,50,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,44,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,44,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,46,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,51,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,52,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,52,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,60,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,61,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,66,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,67,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,67,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,45,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,50,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,50,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,50,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,50,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,52,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,52,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,52,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,52,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,52,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,59,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,60,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,44,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,44,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,44,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,44,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,45,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,45,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,48,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,48,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,49,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,49,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,49,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,50,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,50,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,50,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,50,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,44,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,47,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,47,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,60,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,62,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,62,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,62,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,62,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,62,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,62,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,63,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,64,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,66,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,74,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,74,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,74,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,17,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,45,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,45,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,45,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,48,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,49,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,52,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,54,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,54,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,56,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,56,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,59,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,60,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,44,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,44,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,45,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,45,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,45,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,49,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,49,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,49,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,50,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,50,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,50,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,50,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,40,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,28,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,31,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,33,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,36,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,37,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,38,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,39,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,41,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,43,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,29,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,30,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,34,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,31,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,24,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,25,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,27,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,29,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,33,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,longevity,mean duration of life stage,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,selection pressure,temperature at which populations were reared at for 10 generations prior to the experiment,27,Celsius,NA,NA,NA,NA,NA,Monterrey Mexico,field,NA,NA,decimal,25.686613,-100.316116,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dennington et al. 2023. Phenotypic adaptation to temperature in the mosquito vector Aedes aegypti. Global Change Biology 30 e17041,10.1603/033.046.0105,NA,NA,Paul Huxley,phuxly@gmail.com,NA,TRUE,01/01/2023
NA,NA,survival,percentage of larvae that puputated after being starved for varying durations (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,feeding days completed prior to being starved,NA,4,days,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,Interactor1number is the total number of larvae at the beginning of the experiment,TRUE,01/01/2011
NA,NA,survival,percentage of larvae that puputated after being starved for varying durations (secondstressor),65.13,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,feeding days completed prior to being starved,NA,3,days,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,Interactor1number is the total number of larvae at the beginning of the experiment,TRUE,01/01/2011
NA,NA,survival,percentage of larvae that puputated after being starved for varying durations (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,feeding days completed prior to being starved,NA,5,days,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,Interactor1number is the total number of larvae at the beginning of the experiment,TRUE,01/01/2011
NA,NA,survival,percentage of larvae that puputated after being starved for varying durations (secondstressor),72.808,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,feeding days completed prior to being starved,NA,4,days,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,Interactor1number is the total number of larvae at the beginning of the experiment,TRUE,01/01/2011
NA,NA,survival,percentage of larvae that puputated after being starved for varying durations (secondstressor),12.871,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,feeding days completed prior to being starved,NA,3,days,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,Interactor1number is the total number of larvae at the beginning of the experiment,TRUE,01/01/2011
NA,NA,survival,percentage of larvae that puputated after being starved for varying durations (secondstressor),2.551,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,feeding days completed prior to being starved,NA,3,days,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,Interactor1number is the total number of larvae at the beginning of the experiment,TRUE,01/01/2011
NA,NA,survival,percentage of larvae that puputated after being starved for varying durations (secondstressor),50.226,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,feeding days completed prior to being starved,NA,4,days,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,Interactor1number is the total number of larvae at the beginning of the experiment,TRUE,01/01/2011
NA,NA,survival,percentage of larvae that puputated after being starved for varying durations (secondstressor),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,feeding days completed prior to being starved,NA,5,days,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,Interactor1number is the total number of larvae at the beginning of the experiment,TRUE,01/01/2011
NA,NA,survival,percentage of larvae that puputated after being starved for varying durations (secondstressor),94.357,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,feeding days completed prior to being starved,NA,5,days,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,Interactor1number is the total number of larvae at the beginning of the experiment,TRUE,01/01/2011
NA,NA,survival,percentage of larvae that puputated after being starved for varying durations (secondstressor),0.227,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,feeding days completed prior to being starved,NA,4,days,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,Interactor1number is the total number of larvae at the beginning of the experiment,TRUE,01/01/2011
NA,NA,survival,percentage of larvae that puputated after being starved for varying durations (secondstressor),90.034,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,feeding days completed prior to being starved,NA,7,days,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,Interactor1number is the total number of larvae at the beginning of the experiment,TRUE,01/01/2011
NA,NA,survival,percentage of larvae that puputated after being starved for varying durations (secondstressor),97.519,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,feeding days completed prior to being starved,NA,6,days,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,Interactor1number is the total number of larvae at the beginning of the experiment,TRUE,01/01/2011
NA,NA,survival,percentage of larvae that puputated after being starved for varying durations (secondstressor),67.582,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,feeding days completed prior to being starved,NA,5,days,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,Interactor1number is the total number of larvae at the beginning of the experiment,TRUE,01/01/2011
NA,NA,survival,percentage of larvae that puputated after being starved for varying durations (secondstressor),0.549,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,feeding days completed prior to being starved,NA,4,days,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,Interactor1number is the total number of larvae at the beginning of the experiment,TRUE,01/01/2011
NA,NA,survival,percentage of larvae that puputated after being starved for varying durations (secondstressor),92.552,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,feeding days completed prior to being starved,NA,8,days,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,Interactor1number is the total number of larvae at the beginning of the experiment,TRUE,01/01/2011
NA,NA,survival,percentage of larvae that puputated after being starved for varying durations (secondstressor),72.615,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,feeding days completed prior to being starved,NA,7,days,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,Interactor1number is the total number of larvae at the beginning of the experiment,TRUE,01/01/2011
NA,NA,survival,percentage of larvae that puputated after being starved for varying durations (secondstressor),35.26,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,feeding days completed prior to being starved,NA,6,days,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,Interactor1number is the total number of larvae at the beginning of the experiment,TRUE,01/01/2011
NA,NA,survival,percentage of larvae that puputated after being starved for varying durations (secondstressor),2.421,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,feeding days completed prior to being starved,NA,5,days,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,Interactor1number is the total number of larvae at the beginning of the experiment,TRUE,01/01/2011
NA,NA,survival,percentage of larvae that puputated after being starved for varying durations (secondstressor),0.549,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,feeding days completed prior to being starved,NA,4,days,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,Interactor1number is the total number of larvae at the beginning of the experiment,TRUE,01/01/2011
NA,NA,feeding time,average number of feeding days,0.514,days,0.071,0.12,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,80,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,Interactor1number is the total number of larvae transferred into distilled water including larvae that pupated and starved,TRUE,01/01/2011
NA,NA,feeding time,average number of feeding days,0.466,days,0.119,0.084,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,78,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,Interactor1number is the total number of larvae transferred into distilled water including larvae that pupated and starved,TRUE,01/01/2011
NA,NA,feeding time,average number of feeding days,0.072,days,0.071,0.096,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,43,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,Interactor1number is the total number of larvae transferred into distilled water including larvae that pupated and starved,TRUE,01/01/2011
NA,NA,feeding time,average number of feeding days,0.024,days,0.048,0.06,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,41,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,Interactor1number is the total number of larvae transferred into distilled water including larvae that pupated and starved,TRUE,01/01/2011
NA,NA,feeding time,average number of feeding days,0,days,0,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,Interactor1number is the total number of larvae transferred into distilled water including larvae that pupated and starved,TRUE,01/01/2011
NA,NA,feeding time,average number of feeding days,0,days,0,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,Interactor1number is the total number of larvae transferred into distilled water including larvae that pupated and starved,TRUE,01/01/2011
NA,NA,feeding time,average number of feeding days,2.294,days,0.179,0.108,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,61,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,Interactor1number is the total number of larvae transferred into distilled water including larvae that pupated and starved,TRUE,01/01/2011
NA,NA,feeding time,average number of feeding days,1.935,days,0.072,0.06,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,42,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,Interactor1number is the total number of larvae transferred into distilled water including larvae that pupated and starved,TRUE,01/01/2011
NA,NA,feeding time,average number of feeding days,1.087,days,0.119,0.096,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,42,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,Interactor1number is the total number of larvae transferred into distilled water including larvae that pupated and starved,TRUE,01/01/2011
NA,NA,feeding time,average number of feeding days,0.968,days,0,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,39,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,Interactor1number is the total number of larvae transferred into distilled water including larvae that pupated and starved,TRUE,01/01/2011
NA,NA,feeding time,average number of feeding days,0.968,days,0,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,Interactor1number is the total number of larvae transferred into distilled water including larvae that pupated and starved,TRUE,01/01/2011
NA,NA,feeding time,average number of feeding days,0.968,days,0,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,Interactor1number is the total number of larvae transferred into distilled water including larvae that pupated and starved,TRUE,01/01/2011
NA,NA,feeding time,average number of feeding days,4.038,days,0.155,0.18,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,83,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,Interactor1number is the total number of larvae transferred into distilled water including larvae that pupated and starved,TRUE,01/01/2011
NA,NA,feeding time,average number of feeding days,3.309,days,0.119,0.108,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,Interactor1number is the total number of larvae transferred into distilled water including larvae that pupated and starved,TRUE,01/01/2011
NA,NA,feeding time,average number of feeding days,2.532,days,0.108,0.131,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,74,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,Interactor1number is the total number of larvae transferred into distilled water including larvae that pupated and starved,TRUE,01/01/2011
NA,NA,feeding time,average number of feeding days,2.102,days,0.084,0.095,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,45,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,Interactor1number is the total number of larvae transferred into distilled water including larvae that pupated and starved,TRUE,01/01/2011
NA,NA,feeding time,average number of feeding days,2.031,days,0.071,0.048,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,42,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,Interactor1number is the total number of larvae transferred into distilled water including larvae that pupated and starved,TRUE,01/01/2011
NA,NA,feeding time,average number of feeding days,1.983,days,0,0,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,Interactor1number is the total number of larvae transferred into distilled water including larvae that pupated and starved,TRUE,01/01/2011
NA,NA,feeding time,average number of feeding days,5.662,days,0.132,0.095,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,56,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,Interactor1number is the total number of larvae transferred into distilled water including larvae that pupated and starved,TRUE,01/01/2011
NA,NA,feeding time,average number of feeding days,4.647,days,0.107,0.12,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,Interactor1number is the total number of larvae transferred into distilled water including larvae that pupated and starved,TRUE,01/01/2011
NA,NA,feeding time,average number of feeding days,3.894,days,0.084,0.071,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,41,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,Interactor1number is the total number of larvae transferred into distilled water including larvae that pupated and starved,TRUE,01/01/2011
NA,NA,feeding time,average number of feeding days,3.512,days,0.119,0.108,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,75,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,Interactor1number is the total number of larvae transferred into distilled water including larvae that pupated and starved,TRUE,01/01/2011
NA,NA,feeding time,average number of feeding days,3.476,days,0.143,0.072,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,72,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,Interactor1number is the total number of larvae transferred into distilled water including larvae that pupated and starved,TRUE,01/01/2011
NA,NA,feeding time,average number of feeding days,2.688,days,0.119,0.12,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,55,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,Interactor1number is the total number of larvae transferred into distilled water including larvae that pupated and starved,TRUE,01/01/2011
NA,NA,body size,mean dry weight of fourth (late) instars,547.937,ug,51.572,51.08,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,body size,mean dry weight of fourth (late) instars,533.202,ug,38.311,38.801,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,body size,mean dry weight of fourth (late) instars,508.153,ug,45.678,45.186,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,body size,mean dry weight of fourth (late) instars,476.719,ug,41.749,42.731,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,body size,mean dry weight of fourth (late) instars,463.458,ug,42.731,42.24,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,body size,mean dry weight of fourth (late) instars,379.47,ug,42.239,42.24,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,weight trajectory,mean dry weight gained as a function of completed feeding days after hatching,3.702,ug,6.911,6.911,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,feeding days completed after egg hatching,NA,0,days,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,Error bars show standard error of dry weight across groups of larvae multiplied by group size (n) in each feeding group as follows: newly hatched L1 (n = 10) 1-day-fed L2 (n = 5) 2-day-fed L3 (n = 4) 3-day-fed L4 (n = 2).  L4 (and one pupa) in the 4-day-fed group were weighed individually (n = 30).,TRUE,01/01/2011
NA,NA,weight trajectory,mean dry weight gained as a function of completed feeding days after hatching,31.841,ug,20.734,20.734,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,feeding days completed after egg hatching,NA,1,days,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,Error bars show standard error of dry weight across groups of larvae multiplied by group size (n) in each feeding group as follows: newly hatched L1 (n = 10) 1-day-fed L2 (n = 5) 2-day-fed L3 (n = 4) 3-day-fed L4 (n = 2).  L4 (and one pupa) in the 4-day-fed group were weighed individually (n = 30).,TRUE,01/01/2011
NA,NA,weight trajectory,mean dry weight gained as a function of completed feeding days after hatching,110.331,ug,72.076,72.076,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,feeding days completed after egg hatching,NA,2,days,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,Error bars show standard error of dry weight across groups of larvae multiplied by group size (n) in each feeding group as follows: newly hatched L1 (n = 10) 1-day-fed L2 (n = 5) 2-day-fed L3 (n = 4) 3-day-fed L4 (n = 2).  L4 (and one pupa) in the 4-day-fed group were weighed individually (n = 30).,TRUE,01/01/2011
NA,NA,weight trajectory,mean dry weight gained as a function of completed feeding days after hatching,378.389,ug,76.026,76.026,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,feeding days completed after egg hatching,NA,3,days,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,Error bars show standard error of dry weight across groups of larvae multiplied by group size (n) in each feeding group as follows: newly hatched L1 (n = 10) 1-day-fed L2 (n = 5) 2-day-fed L3 (n = 4) 3-day-fed L4 (n = 2).  L4 (and one pupa) in the 4-day-fed group were weighed individually (n = 30).,TRUE,01/01/2011
NA,NA,weight trajectory,mean dry weight gained as a function of completed feeding days after hatching,448.983,ug,132.299,132.299,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,feeding days completed after egg hatching,NA,4,days,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,30,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,Error bars show standard error of dry weight across groups of larvae multiplied by group size (n) in each feeding group as follows: newly hatched L1 (n = 10) 1-day-fed L2 (n = 5) 2-day-fed L3 (n = 4) 3-day-fed L4 (n = 2).  L4 (and one pupa) in the 4-day-fed group were weighed individually (n = 30).,TRUE,01/01/2011
NA,NA,survival,mean survival duration of staved instars (interactor1stage),4.189,days,0.394,0.394,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5A,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,survival,mean survival duration of staved instars (interactor1stage),7.031,days,1.491,1.491,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5A,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,survival,mean survival duration of staved instars (interactor1stage),6.749,days,0.676,0.676,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5A,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,survival,mean survival duration of staved instars (interactor1stage),5.708,days,0.479,0.479,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5A,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,survival,mean survival duration of staved instars (interactor1stage),4.189,days,0.788,0.788,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5A,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,survival,mean survival duration of staved instars (interactor1stage),3.373,days,0.534,0.534,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5A,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,survival,mean survival duration of staved instars (interactor1stage),9.282,days,0.759,0.759,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5A,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,survival,mean survival duration of staved instars (interactor1stage),9.225,days,0.648,0.648,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5A,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,survival,mean survival duration of staved instars (interactor1stage),5.145,days,0.535,0.535,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5A,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,survival,mean survival duration of staved instars (interactor1stage),4.583,days,0.394,0.394,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5A,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,survival,mean survival duration of staved instars (interactor1stage),5.652,days,0.45,0.45,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5A,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,survival,mean survival duration of staved instars (interactor1stage),5.174,days,0.337,0.337,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5A,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,survival,mean survival duration of staved instars (interactor1stage),12.715,days,0.9,0.9,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5A,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,survival,mean survival duration of staved instars (interactor1stage),11.251,days,0.929,0.929,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5A,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,survival,mean survival duration of staved instars (interactor1stage),8.381,days,0.732,0.732,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5A,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,survival,mean survival duration of staved instars (interactor1stage),8.55,days,0.732,0.732,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5A,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,survival,mean survival duration of staved instars (interactor1stage),8.663,days,0.591,0.591,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5A,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,survival,mean survival duration of staved instars (interactor1stage),9.31,days,0.872,0.872,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5A,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,survival,mean survival duration of staved instars (interactor1stage),24.11,days,1.323,1.323,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5A,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,survival,mean survival duration of staved instars (interactor1stage),18.089,days,1.688,1.688,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5A,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,survival,mean survival duration of staved instars (interactor1stage),13.502,days,1.013,1.013,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5A,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,survival,mean survival duration of staved instars (interactor1stage),17.47,days,0.788,0.788,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5A,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,survival,mean survival duration of staved instars (interactor1stage),16.344,days,0.732,0.732,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5A,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,survival,mean survival duration of staved instars (interactor1stage),12.405,days,0.9,0.9,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5A,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,survival,mean survival duration of staved instars (interactor1stage),4.242,days,0.536,0.536,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5B,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,survival,mean survival duration of staved instars (interactor1stage),9.235,days,0.869,0.869,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5B,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,survival,mean survival duration of staved instars (interactor1stage),12.766,days,0.87,0.87,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5B,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,survival,mean survival duration of staved instars (interactor1stage),24.083,days,1.369,1.369,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5B,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,survival,mean survival duration of staved instars (interactor1stage),7.034,days,1.553,1.553,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5B,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,survival,mean survival duration of staved instars (interactor1stage),9.235,days,0.665,0.665,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5B,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,survival,mean survival duration of staved instars (interactor1stage),11.398,days,0.888,0.888,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5B,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,survival,mean survival duration of staved instars (interactor1stage),18.074,days,1.701,1.701,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5B,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,survival,mean survival duration of staved instars (interactor1stage),6.831,days,0.628,0.628,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5B,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,survival,mean survival duration of staved instars (interactor1stage),5.167,days,0.647,0.647,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5B,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,survival,mean survival duration of staved instars (interactor1stage),8.495,days,0.74,0.74,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5B,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,survival,mean survival duration of staved instars (interactor1stage),13.58,days,0.98,0.98,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5B,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,survival,mean survival duration of staved instars (interactor1stage),5.703,days,0.573,0.573,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5B,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,survival,mean survival duration of staved instars (interactor1stage),4.649,days,0.388,0.388,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5B,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,survival,mean survival duration of staved instars (interactor1stage),8.606,days,0.74,0.74,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5B,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,survival,mean survival duration of staved instars (interactor1stage),17.5,days,0.795,0.795,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5B,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,survival,mean survival duration of staved instars (interactor1stage),4.261,days,0.795,0.795,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5B,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,survival,mean survival duration of staved instars (interactor1stage),5.684,days,0.37,0.37,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5B,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,survival,mean survival duration of staved instars (interactor1stage),8.698,days,0.574,0.574,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5B,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,survival,mean survival duration of staved instars (interactor1stage),16.335,days,0.74,0.74,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5B,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,survival,mean survival duration of staved instars (interactor1stage),3.41,days,0.444,0.444,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5B,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,survival,mean survival duration of staved instars (interactor1stage),5.204,days,0.314,0.314,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5B,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,survival,mean survival duration of staved instars (interactor1stage),9.364,days,0.851,0.851,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5B,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,survival,mean survival duration of staved instars (interactor1stage),12.415,days,0.999,0.999,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Barranquilla Colombia,field (F3),NA,NA,decimal,10.97817734,-74.80231453,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5B,Padmanabha et al. 2011. Temperature induces trade offs between development and starvation resistance in Aedes aegypti (L.) larvae. Medical and veterinary entomology 25:4,10.1111/j.1365-2915.2011.00950.x,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,wing length,mean wing length as function of being exposed to malathion or not (control),2.848,mm,0.033,0.033,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,control,NA,NA,NA,NA,NA,NA,NA,NA,South Florida,colony (F7),NA,NA,decimal,26.63628802,-81.28766764,Aedes aegypti,NA,NA,NA,381,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Muturi and Alto. 2011. Larval environmental temperature and insecticide exposure alter Aedes aegypti competence for arboviruses. Vector-Borne and Zoonotic Diseases 11(8) 1157-1163.,10.1089/vbz.2010.0209,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,wing length,mean wing length as function of being exposed to malathion or not (control),3.001,mm,0.028,0.028,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,malathion exposure,NA,0.05,ppm,NA,NA,NA,NA,NA,South Florida,colony (F7),NA,NA,decimal,26.63628802,-81.28766764,Aedes aegypti,NA,NA,NA,282,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Muturi and Alto. 2011. Larval environmental temperature and insecticide exposure alter Aedes aegypti competence for arboviruses. Vector-Borne and Zoonotic Diseases 11(8) 1157-1163.,10.1089/vbz.2010.0209,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,wing length,mean wing length as function of being exposed to malathion or not (control),2.516,mm,0.011,0.011,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,control,NA,NA,NA,NA,NA,NA,NA,NA,South Florida,colony (F7),NA,NA,decimal,26.63628802,-81.28766764,Aedes aegypti,NA,NA,NA,335,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Muturi and Alto. 2011. Larval environmental temperature and insecticide exposure alter Aedes aegypti competence for arboviruses. Vector-Borne and Zoonotic Diseases 11(8) 1157-1163.,10.1089/vbz.2010.0209,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,wing length,mean wing length as function of being exposed to malathion or not (control),2.511,mm,0.034,0.034,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,malathion exposure,NA,0.05,ppm,NA,NA,NA,NA,NA,South Florida,colony (F7),NA,NA,decimal,26.63628802,-81.28766764,Aedes aegypti,NA,NA,NA,300,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Muturi and Alto. 2011. Larval environmental temperature and insecticide exposure alter Aedes aegypti competence for arboviruses. Vector-Borne and Zoonotic Diseases 11(8) 1157-1163.,10.1089/vbz.2010.0209,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2011
NA,NA,infection rate,mean percentage of infected bodies from the total number of individuals engorged with blood,21.828,percent,0.755,0.755,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,control,NA,NA,NA,NA,NA,NA,NA,NA,South Florida,colony (F7),NA,NA,decimal,26.63628802,-81.28766764,Aedes aegypti,NA,NA,NA,154,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,25,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Muturi and Alto. 2011. Larval environmental temperature and insecticide exposure alter Aedes aegypti competence for arboviruses. Vector-Borne and Zoonotic Diseases 11(8) 1157-1163.,10.1089/vbz.2010.0209,NA,NA,Margo Blaha,margo.blaha@unitn.it,adult assays were conducted at interactor1growthtemp,TRUE,01/01/2011
NA,NA,infection rate,mean percentage of infected bodies from the total number of individuals engorged with blood,21.526,percent,1.435,1.435,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,malathion exposure,NA,0.05,ppm,NA,NA,NA,NA,NA,South Florida,colony (F7),NA,NA,decimal,26.63628802,-81.28766764,Aedes aegypti,NA,NA,NA,166,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,25,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Muturi and Alto. 2011. Larval environmental temperature and insecticide exposure alter Aedes aegypti competence for arboviruses. Vector-Borne and Zoonotic Diseases 11(8) 1157-1163.,10.1089/vbz.2010.0209,NA,NA,Margo Blaha,margo.blaha@unitn.it,adult assays were conducted at interactor1growthtemp,TRUE,01/01/2011
NA,NA,infection rate,mean percentage of infected bodies from the total number of individuals engorged with blood,32.326,percent,1.284,1.284,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,control,NA,NA,NA,NA,NA,NA,NA,NA,South Florida,colony (F7),NA,NA,decimal,26.63628802,-81.28766764,Aedes aegypti,NA,NA,NA,178,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,25,Celsius,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Muturi and Alto. 2011. Larval environmental temperature and insecticide exposure alter Aedes aegypti competence for arboviruses. Vector-Borne and Zoonotic Diseases 11(8) 1157-1163.,10.1089/vbz.2010.0209,NA,NA,Margo Blaha,margo.blaha@unitn.it,adult assays were conducted at interactor1growthtemp,TRUE,01/01/2011
NA,NA,infection rate,mean percentage of infected bodies from the total number of individuals engorged with blood,42.598,percent,1.888,1.888,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,malathion exposure,NA,0.05,ppm,NA,NA,NA,NA,NA,South Florida,colony (F7),NA,NA,decimal,26.63628802,-81.28766764,Aedes aegypti,NA,NA,NA,156,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,25,Celsius,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Muturi and Alto. 2011. Larval environmental temperature and insecticide exposure alter Aedes aegypti competence for arboviruses. Vector-Borne and Zoonotic Diseases 11(8) 1157-1163.,10.1089/vbz.2010.0209,NA,NA,Margo Blaha,margo.blaha@unitn.it,adult assays were conducted at interactor1growthtemp,TRUE,01/01/2011
NA,NA,dissemination rate,mean percentage of infected legs from the total number individuals engorged with blood,16.555,percent,1.848,1.848,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,control,NA,NA,NA,NA,NA,NA,NA,NA,South Florida,colony (F7),NA,NA,decimal,26.63628802,-81.28766764,Aedes aegypti,NA,NA,NA,154,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,25,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Muturi and Alto. 2011. Larval environmental temperature and insecticide exposure alter Aedes aegypti competence for arboviruses. Vector-Borne and Zoonotic Diseases 11(8) 1157-1163.,10.1089/vbz.2010.0209,NA,NA,Margo Blaha,margo.blaha@unitn.it,adult assays were conducted at interactor1growthtemp,TRUE,01/01/2011
NA,NA,dissemination rate,mean percentage of infected legs from the total number individuals engorged with blood,15.266,percent,1.513,1.513,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,malathion exposure,NA,0.05,ppm,NA,NA,NA,NA,NA,South Florida,colony (F7),NA,NA,decimal,26.63628802,-81.28766764,Aedes aegypti,NA,NA,NA,166,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,25,Celsius,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Muturi and Alto. 2011. Larval environmental temperature and insecticide exposure alter Aedes aegypti competence for arboviruses. Vector-Borne and Zoonotic Diseases 11(8) 1157-1163.,10.1089/vbz.2010.0209,NA,NA,Margo Blaha,margo.blaha@unitn.it,adult assays were conducted at interactor1growthtemp,TRUE,01/01/2011
NA,NA,dissemination rate,mean percentage of infected legs from the total number individuals engorged with blood,26.134,percent,2.802,2.802,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,control,NA,NA,NA,NA,NA,NA,NA,NA,South Florida,colony (F7),NA,NA,decimal,26.63628802,-81.28766764,Aedes aegypti,NA,NA,NA,178,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,25,Celsius,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Muturi and Alto. 2011. Larval environmental temperature and insecticide exposure alter Aedes aegypti competence for arboviruses. Vector-Borne and Zoonotic Diseases 11(8) 1157-1163.,10.1089/vbz.2010.0209,NA,NA,Margo Blaha,margo.blaha@unitn.it,adult assays were conducted at interactor1growthtemp,TRUE,01/01/2011
NA,NA,dissemination rate,mean percentage of infected legs from the total number individuals engorged with blood,35.658,percent,3.586,3.586,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,malathion exposure,NA,0.05,ppm,NA,NA,NA,NA,NA,South Florida,colony (F7),NA,NA,decimal,26.63628802,-81.28766764,Aedes aegypti,NA,NA,NA,156,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,25,Celsius,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Muturi and Alto. 2011. Larval environmental temperature and insecticide exposure alter Aedes aegypti competence for arboviruses. Vector-Borne and Zoonotic Diseases 11(8) 1157-1163.,10.1089/vbz.2010.0209,NA,NA,Margo Blaha,margo.blaha@unitn.it,adult assays were conducted at interactor1growthtemp,TRUE,01/01/2011
NA,NA,survival,proportion surviving 24 hrs after exposure to heat stress,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,hours post heatstress,NA,24,hours,NA,NA,NA,NA,NA,Department of Ecology and Genetics University of Aarhus Ny Munkegade Building 1535-40 DK-8000 Aarhus C Denmark,colony,NA,NA,decimal,56.16639006,10.19998397,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Andersen et al. 2006. Dopamine levels in the mosquito Aedes aegypti during adult development following blood feeding and in response to heat stress. Journal of insect physiology 52(11-12) 1163-1170.,10.1016/j.jinsphys.2006.08.004,NA,NA,Margo Blaha,margo.blaha@unitn.it,interactor1temp is the pre heat stress holding temperature,TRUE,01/01/2006
NA,NA,survival,proportion surviving 48 hrs after exposure to heat stress,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,hours post heatstress,NA,48,hours,NA,NA,NA,NA,NA,Department of Ecology and Genetics University of Aarhus Ny Munkegade Building 1535-40 DK-8000 Aarhus C Denmark,colony,NA,NA,decimal,56.16639006,10.19998397,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Andersen et al. 2006. Dopamine levels in the mosquito Aedes aegypti during adult development following blood feeding and in response to heat stress. Journal of insect physiology 52(11-12) 1163-1170.,10.1016/j.jinsphys.2006.08.004,NA,NA,Margo Blaha,margo.blaha@unitn.it,interactor1temp is the pre heat stress holding temperature,TRUE,01/01/2006
NA,NA,survival,proportion surviving 24 hrs after exposure to heat stress,0.986,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,hours post heatstress,NA,24,hours,NA,NA,NA,NA,NA,Department of Ecology and Genetics University of Aarhus Ny Munkegade Building 1535-40 DK-8000 Aarhus C Denmark,colony,NA,NA,decimal,56.16639006,10.19998397,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,27,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Andersen et al. 2006. Dopamine levels in the mosquito Aedes aegypti during adult development following blood feeding and in response to heat stress. Journal of insect physiology 52(11-12) 1163-1170.,10.1016/j.jinsphys.2006.08.004,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2006
NA,NA,survival,proportion surviving 48 hrs after exposure to heat stress,0.986,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,hours post heatstress,NA,48,hours,NA,NA,NA,NA,NA,Department of Ecology and Genetics University of Aarhus Ny Munkegade Building 1535-40 DK-8000 Aarhus C Denmark,colony,NA,NA,decimal,56.16639006,10.19998397,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,27,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Andersen et al. 2006. Dopamine levels in the mosquito Aedes aegypti during adult development following blood feeding and in response to heat stress. Journal of insect physiology 52(11-12) 1163-1170.,10.1016/j.jinsphys.2006.08.004,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2006
NA,NA,survival,proportion surviving 24 hrs after exposure to heat stress,0.983,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,hours post heatstress,NA,24,hours,NA,NA,NA,NA,NA,Department of Ecology and Genetics University of Aarhus Ny Munkegade Building 1535-40 DK-8000 Aarhus C Denmark,colony,NA,NA,decimal,56.16639006,10.19998397,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,40,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Andersen et al. 2006. Dopamine levels in the mosquito Aedes aegypti during adult development following blood feeding and in response to heat stress. Journal of insect physiology 52(11-12) 1163-1170.,10.1016/j.jinsphys.2006.08.004,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2006
NA,NA,survival,proportion surviving 48 hrs after exposure to heat stress,0.955,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,hours post heatstress,NA,48,hours,NA,NA,NA,NA,NA,Department of Ecology and Genetics University of Aarhus Ny Munkegade Building 1535-40 DK-8000 Aarhus C Denmark,colony,NA,NA,decimal,56.16639006,10.19998397,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,40,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Andersen et al. 2006. Dopamine levels in the mosquito Aedes aegypti during adult development following blood feeding and in response to heat stress. Journal of insect physiology 52(11-12) 1163-1170.,10.1016/j.jinsphys.2006.08.004,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2006
NA,NA,survival,proportion surviving 24 hrs after exposure to heat stress,0.988,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,hours post heatstress,NA,24,hours,NA,NA,NA,NA,NA,Department of Ecology and Genetics University of Aarhus Ny Munkegade Building 1535-40 DK-8000 Aarhus C Denmark,colony,NA,NA,decimal,56.16639006,10.19998397,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,42,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Andersen et al. 2006. Dopamine levels in the mosquito Aedes aegypti during adult development following blood feeding and in response to heat stress. Journal of insect physiology 52(11-12) 1163-1170.,10.1016/j.jinsphys.2006.08.004,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2006
NA,NA,survival,proportion surviving 48 hrs after exposure to heat stress,0.858,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,hours post heatstress,NA,48,hours,NA,NA,NA,NA,NA,Department of Ecology and Genetics University of Aarhus Ny Munkegade Building 1535-40 DK-8000 Aarhus C Denmark,colony,NA,NA,decimal,56.16639006,10.19998397,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,42,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Andersen et al. 2006. Dopamine levels in the mosquito Aedes aegypti during adult development following blood feeding and in response to heat stress. Journal of insect physiology 52(11-12) 1163-1170.,10.1016/j.jinsphys.2006.08.004,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2006
NA,NA,survival,proportion surviving 24 hrs after exposure to heat stress,0.949,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,hours post heatstress,NA,24,hours,NA,NA,NA,NA,NA,Department of Ecology and Genetics University of Aarhus Ny Munkegade Building 1535-40 DK-8000 Aarhus C Denmark,colony,NA,NA,decimal,56.16639006,10.19998397,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,43,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Andersen et al. 2006. Dopamine levels in the mosquito Aedes aegypti during adult development following blood feeding and in response to heat stress. Journal of insect physiology 52(11-12) 1163-1170.,10.1016/j.jinsphys.2006.08.004,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2006
NA,NA,survival,proportion surviving 48 hrs after exposure to heat stress,0.78,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,hours post heatstress,NA,48,hours,NA,NA,NA,NA,NA,Department of Ecology and Genetics University of Aarhus Ny Munkegade Building 1535-40 DK-8000 Aarhus C Denmark,colony,NA,NA,decimal,56.16639006,10.19998397,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,43,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Andersen et al. 2006. Dopamine levels in the mosquito Aedes aegypti during adult development following blood feeding and in response to heat stress. Journal of insect physiology 52(11-12) 1163-1170.,10.1016/j.jinsphys.2006.08.004,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2006
NA,NA,survival,proportion surviving 24 hrs after exposure to heat stress,0.897,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,hours post heatstress,NA,24,hours,NA,NA,NA,NA,NA,Department of Ecology and Genetics University of Aarhus Ny Munkegade Building 1535-40 DK-8000 Aarhus C Denmark,colony,NA,NA,decimal,56.16639006,10.19998397,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,44,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Andersen et al. 2006. Dopamine levels in the mosquito Aedes aegypti during adult development following blood feeding and in response to heat stress. Journal of insect physiology 52(11-12) 1163-1170.,10.1016/j.jinsphys.2006.08.004,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2006
NA,NA,survival,proportion surviving 48 hrs after exposure to heat stress,0.685,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,hours post heatstress,NA,48,hours,NA,NA,NA,NA,NA,Department of Ecology and Genetics University of Aarhus Ny Munkegade Building 1535-40 DK-8000 Aarhus C Denmark,colony,NA,NA,decimal,56.16639006,10.19998397,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,44,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Andersen et al. 2006. Dopamine levels in the mosquito Aedes aegypti during adult development following blood feeding and in response to heat stress. Journal of insect physiology 52(11-12) 1163-1170.,10.1016/j.jinsphys.2006.08.004,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2006
NA,NA,survival,proportion surviving 24 hrs after exposure to heat stress,0,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,hours post heatstress,NA,24,hours,NA,NA,NA,NA,NA,Department of Ecology and Genetics University of Aarhus Ny Munkegade Building 1535-40 DK-8000 Aarhus C Denmark,colony,NA,NA,decimal,56.16639006,10.19998397,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,45,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Andersen et al. 2006. Dopamine levels in the mosquito Aedes aegypti during adult development following blood feeding and in response to heat stress. Journal of insect physiology 52(11-12) 1163-1170.,10.1016/j.jinsphys.2006.08.004,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2006
NA,NA,survival,proportion surviving 48 hrs after exposure to heat stress,0,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,hours post heatstress,NA,48,hours,NA,NA,NA,NA,NA,Department of Ecology and Genetics University of Aarhus Ny Munkegade Building 1535-40 DK-8000 Aarhus C Denmark,colony,NA,NA,decimal,56.16639006,10.19998397,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,45,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Andersen et al. 2006. Dopamine levels in the mosquito Aedes aegypti during adult development following blood feeding and in response to heat stress. Journal of insect physiology 52(11-12) 1163-1170.,10.1016/j.jinsphys.2006.08.004,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2006
NA,NA,survival,proportion surviving 24 hrs after exposure to heat stress,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,hours post heatstress,NA,24,hours,NA,NA,NA,NA,NA,Department of Ecology and Genetics University of Aarhus Ny Munkegade Building 1535-40 DK-8000 Aarhus C Denmark,colony,NA,NA,decimal,56.16639006,10.19998397,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Andersen et al. 2006. Dopamine levels in the mosquito Aedes aegypti during adult development following blood feeding and in response to heat stress. Journal of insect physiology 52(11-12) 1163-1170.,10.1016/j.jinsphys.2006.08.004,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2006
NA,NA,survival,proportion surviving 48 hrs after exposure to heat stress,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,hours post heatstress,NA,48,hours,NA,NA,NA,NA,NA,Department of Ecology and Genetics University of Aarhus Ny Munkegade Building 1535-40 DK-8000 Aarhus C Denmark,colony,NA,NA,decimal,56.16639006,10.19998397,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Andersen et al. 2006. Dopamine levels in the mosquito Aedes aegypti during adult development following blood feeding and in response to heat stress. Journal of insect physiology 52(11-12) 1163-1170.,10.1016/j.jinsphys.2006.08.004,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2006
NA,NA,survival,proportion surviving 24 hrs after exposure to heat stress,0.995,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,hours post heatstress,NA,24,hours,NA,NA,NA,NA,NA,Department of Ecology and Genetics University of Aarhus Ny Munkegade Building 1535-40 DK-8000 Aarhus C Denmark,colony,NA,NA,decimal,56.16639006,10.19998397,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Andersen et al. 2006. Dopamine levels in the mosquito Aedes aegypti during adult development following blood feeding and in response to heat stress. Journal of insect physiology 52(11-12) 1163-1170.,10.1016/j.jinsphys.2006.08.004,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2006
NA,NA,survival,proportion surviving 48 hrs after exposure to heat stress,0.995,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,hours post heatstress,NA,48,hours,NA,NA,NA,NA,NA,Department of Ecology and Genetics University of Aarhus Ny Munkegade Building 1535-40 DK-8000 Aarhus C Denmark,colony,NA,NA,decimal,56.16639006,10.19998397,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Andersen et al. 2006. Dopamine levels in the mosquito Aedes aegypti during adult development following blood feeding and in response to heat stress. Journal of insect physiology 52(11-12) 1163-1170.,10.1016/j.jinsphys.2006.08.004,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2006
NA,NA,survival,proportion surviving 24 hrs after exposure to heat stress,0.993,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,hours post heatstress,NA,24,hours,NA,NA,NA,NA,NA,Department of Ecology and Genetics University of Aarhus Ny Munkegade Building 1535-40 DK-8000 Aarhus C Denmark,colony,NA,NA,decimal,56.16639006,10.19998397,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,40,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Andersen et al. 2006. Dopamine levels in the mosquito Aedes aegypti during adult development following blood feeding and in response to heat stress. Journal of insect physiology 52(11-12) 1163-1170.,10.1016/j.jinsphys.2006.08.004,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2006
NA,NA,survival,proportion surviving 48 hrs after exposure to heat stress,0.957,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,hours post heatstress,NA,48,hours,NA,NA,NA,NA,NA,Department of Ecology and Genetics University of Aarhus Ny Munkegade Building 1535-40 DK-8000 Aarhus C Denmark,colony,NA,NA,decimal,56.16639006,10.19998397,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,40,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Andersen et al. 2006. Dopamine levels in the mosquito Aedes aegypti during adult development following blood feeding and in response to heat stress. Journal of insect physiology 52(11-12) 1163-1170.,10.1016/j.jinsphys.2006.08.004,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2006
NA,NA,survival,proportion surviving 24 hrs after exposure to heat stress,0.985,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,hours post heatstress,NA,24,hours,NA,NA,NA,NA,NA,Department of Ecology and Genetics University of Aarhus Ny Munkegade Building 1535-40 DK-8000 Aarhus C Denmark,colony,NA,NA,decimal,56.16639006,10.19998397,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,42,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Andersen et al. 2006. Dopamine levels in the mosquito Aedes aegypti during adult development following blood feeding and in response to heat stress. Journal of insect physiology 52(11-12) 1163-1170.,10.1016/j.jinsphys.2006.08.004,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2006
NA,NA,survival,proportion surviving 48 hrs after exposure to heat stress,0.971,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,hours post heatstress,NA,48,hours,NA,NA,NA,NA,NA,Department of Ecology and Genetics University of Aarhus Ny Munkegade Building 1535-40 DK-8000 Aarhus C Denmark,colony,NA,NA,decimal,56.16639006,10.19998397,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,42,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Andersen et al. 2006. Dopamine levels in the mosquito Aedes aegypti during adult development following blood feeding and in response to heat stress. Journal of insect physiology 52(11-12) 1163-1170.,10.1016/j.jinsphys.2006.08.004,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2006
NA,NA,survival,proportion surviving 24 hrs after exposure to heat stress,0.978,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,hours post heatstress,NA,24,hours,NA,NA,NA,NA,NA,Department of Ecology and Genetics University of Aarhus Ny Munkegade Building 1535-40 DK-8000 Aarhus C Denmark,colony,NA,NA,decimal,56.16639006,10.19998397,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,43,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Andersen et al. 2006. Dopamine levels in the mosquito Aedes aegypti during adult development following blood feeding and in response to heat stress. Journal of insect physiology 52(11-12) 1163-1170.,10.1016/j.jinsphys.2006.08.004,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2006
NA,NA,survival,proportion surviving 48 hrs after exposure to heat stress,0.95,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,hours post heatstress,NA,48,hours,NA,NA,NA,NA,NA,Department of Ecology and Genetics University of Aarhus Ny Munkegade Building 1535-40 DK-8000 Aarhus C Denmark,colony,NA,NA,decimal,56.16639006,10.19998397,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,43,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Andersen et al. 2006. Dopamine levels in the mosquito Aedes aegypti during adult development following blood feeding and in response to heat stress. Journal of insect physiology 52(11-12) 1163-1170.,10.1016/j.jinsphys.2006.08.004,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2006
NA,NA,survival,proportion surviving 24 hrs after exposure to heat stress,0.903,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,hours post heatstress,NA,24,hours,NA,NA,NA,NA,NA,Department of Ecology and Genetics University of Aarhus Ny Munkegade Building 1535-40 DK-8000 Aarhus C Denmark,colony,NA,NA,decimal,56.16639006,10.19998397,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,44,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Andersen et al. 2006. Dopamine levels in the mosquito Aedes aegypti during adult development following blood feeding and in response to heat stress. Journal of insect physiology 52(11-12) 1163-1170.,10.1016/j.jinsphys.2006.08.004,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2006
NA,NA,survival,proportion surviving 48 hrs after exposure to heat stress,0.771,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,hours post heatstress,NA,48,hours,NA,NA,NA,NA,NA,Department of Ecology and Genetics University of Aarhus Ny Munkegade Building 1535-40 DK-8000 Aarhus C Denmark,colony,NA,NA,decimal,56.16639006,10.19998397,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,44,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Andersen et al. 2006. Dopamine levels in the mosquito Aedes aegypti during adult development following blood feeding and in response to heat stress. Journal of insect physiology 52(11-12) 1163-1170.,10.1016/j.jinsphys.2006.08.004,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2006
NA,NA,survival,proportion surviving 24 hrs after exposure to heat stress,0.007,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,hours post heatstress,NA,24,hours,NA,NA,NA,NA,NA,Department of Ecology and Genetics University of Aarhus Ny Munkegade Building 1535-40 DK-8000 Aarhus C Denmark,colony,NA,NA,decimal,56.16639006,10.19998397,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,45,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Andersen et al. 2006. Dopamine levels in the mosquito Aedes aegypti during adult development following blood feeding and in response to heat stress. Journal of insect physiology 52(11-12) 1163-1170.,10.1016/j.jinsphys.2006.08.004,NA,NA,Margo Blaha,margo.blaha@unitn.it,interactor1temp is the pre heat stress holding temperature,TRUE,01/01/2006
NA,NA,survival,proportion surviving 48 hrs after exposure to heat stress,0,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,hours post heatstress,NA,48,hours,NA,NA,NA,NA,NA,Department of Ecology and Genetics University of Aarhus Ny Munkegade Building 1535-40 DK-8000 Aarhus C Denmark,colony,NA,NA,decimal,56.16639006,10.19998397,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,45,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Andersen et al. 2006. Dopamine levels in the mosquito Aedes aegypti during adult development following blood feeding and in response to heat stress. Journal of insect physiology 52(11-12) 1163-1170.,10.1016/j.jinsphys.2006.08.004,NA,NA,Margo Blaha,margo.blaha@unitn.it,interactor1temp is the pre heat stress holding temperature,TRUE,01/01/2006
NA,NA,hatching rate,average percentage of larvae hatching at different temperatures,29.345,percent,2.087,2.087,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,hatching rate,average percentage of larvae hatching at different temperatures,42.36,percent,1.351,1.351,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,hatching rate,average percentage of larvae hatching at different temperatures,76.739,percent,3.561,3.561,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,hatching rate,average percentage of larvae hatching at different temperatures,62.374,percent,1.35,1.35,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,3.066,days,0.977,0.977,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),0,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,8.693,days,1.718,1.718,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),0,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,12.399,days,1.415,1.415,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),0,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,18.43,days,1.954,1.954,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),0,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,21.462,days,1.18,1.18,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),0,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,22.743,days,1.718,1.718,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),1,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,secondstressor is defined as the combination of light with specific wavelength a photosensitive compound (PS) and cellular oxygen triggering the formation of reactive oxygen species (ROS) capable of destroying a biological target,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,24.023,days,1.078,1.078,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),1,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,secondstressor is defined as the combination of light with specific wavelength a photosensitive compound (PS) and cellular oxygen triggering the formation of reactive oxygen species (ROS) capable of destroying a biological target,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,2.662,days,1.213,1.213,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),0,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,4.38,days,0.809,0.809,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),0,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,7.109,days,1.382,1.382,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),0,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,8.423,days,1.82,1.82,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),0,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,10.074,days,2.022,2.022,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),0,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,12.365,days,1.449,1.449,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),1,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,14.387,days,1.415,1.415,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),1,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,1.316,days,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),0,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,2.699,days,0.607,0.607,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),0,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,3.981,days,0.54,0.54,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),0,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,6.039,days,1.08,1.08,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),0,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,8.097,days,1.046,1.046,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),0,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,8.367,days,0.81,0.81,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),1,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,11.37,days,1.113,1.113,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),1,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,1.957,days,0.978,0.978,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),0,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,3.677,days,0.776,0.776,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),0,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L2,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,4.352,days,0.844,0.844,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),0,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L3,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,8.03,days,1.113,1.113,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),0,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,10.02,days,1.114,1.114,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),0,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,10.358,days,0.843,0.843,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),1,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,development time,mean duration of life stage,12.314,days,0.911,0.911,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),1,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,pupal,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,larvicidal resistance,concentration of curcumin formulation required to kill 25 percent of larvae as a function of temperature,0.008,mg/L,0.009,0.007,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,larvicidal resistance,concentration of curcumin formulation required to kill 25 percent of larvae as a function of temperature,0.006,mg/L,0.007,0.004,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,larvicidal resistance,concentration of curcumin formulation required to kill 25 percent of larvae as a function of temperature,0.005,mg/L,0.006,0.004,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,larvicidal resistance,concentration of curcumin formulation required to kill 25 percent of larvae as a function of temperature,0.004,mg/L,0.006,0.003,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,larvicidal resistance,concentration of curcumin formulation required to kill 50 percent of larvae as a function of temperature,0.044,mg/L,0.112,0.017,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,larvicidal resistance,concentration of curcumin formulation required to kill 50 percent of larvae as a function of temperature,0.027,mg/L,0.035,0.021,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,larvicidal resistance,concentration of curcumin formulation required to kill 50 percent of larvae as a function of temperature,0.019,mg/L,0.023,0.016,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,larvicidal resistance,concentration of curcumin formulation required to kill 50 percent of larvae as a function of temperature,0.013,mg/L,0.016,0.01,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,larvicidal resistance,concentration of curcumin formulation required to kill 90 percent of larvae as a function of temperature,0.72,mg/L,0.905,0.647,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,larvicidal resistance,concentration of curcumin formulation required to kill 90 percent of larvae as a function of temperature,0.431,mg/L,0.653,0.322,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,larvicidal resistance,concentration of curcumin formulation required to kill 90 percent of larvae as a function of temperature,0.224,mg/L,0.318,0.173,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,larvicidal resistance,concentration of curcumin formulation required to kill 90 percent of larvae as a function of temperature,0.099,mg/L,0.14,0.074,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,sex ratio,sex ratio of adults emerged after exposure to different temperatures,78,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),0,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,sex ratio,sex ratio of adults emerged after exposure to different temperatures,22,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),0,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,sex ratio,sex ratio of adults emerged after exposure to different temperatures,66,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),0,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,sex ratio,sex ratio of adults emerged after exposure to different temperatures,34,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),0,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,sex ratio,sex ratio of adults emerged after exposure to different temperatures,53,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),0,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,sex ratio,sex ratio of adults emerged after exposure to different temperatures,47,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),0,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,sex ratio,sex ratio of adults emerged after exposure to different temperatures,32,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),0,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,sex ratio,sex ratio of adults emerged after exposure to different temperatures,68,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),0,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,sex ratio,sex ratio of adults emerged after exposure to different temperatures,38,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),1,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,sex ratio,sex ratio of adults emerged after exposure to different temperatures,62,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),1,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,sex ratio,sex ratio of adults emerged after exposure to different temperatures,41,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),1,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,sex ratio,sex ratio of adults emerged after exposure to different temperatures,59,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),1,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,sex ratio,sex ratio of adults emerged after exposure to different temperatures,55,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),1,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,sex ratio,sex ratio of adults emerged after exposure to different temperatures,45,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),1,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,sex ratio,sex ratio of adults emerged after exposure to different temperatures,71,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),1,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,sex ratio,sex ratio of adults emerged after exposure to different temperatures,29,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),1,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 7,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2024
NA,NA,body size,average live body weight,0.001005,mg,5e-5,5e-5,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),0,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 7,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,body weight of live individuals was measured with an analytical balance,TRUE,01/01/2024
NA,NA,body size,average live body weight,6.8e-4,mg,5e-5,5e-5,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),1,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 7,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,body weight of live individuals was measured with an analytical balance,TRUE,01/01/2024
NA,NA,body size,average live body weight,0.003686,mg,7e-5,7e-5,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),0,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 7,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,body weight of live individuals was measured with an analytical balance,TRUE,01/01/2024
NA,NA,body size,average live body weight,0.002423,mg,7e-5,7e-5,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),1,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 7,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,body weight of live individuals was measured with an analytical balance,TRUE,01/01/2024
NA,NA,body size,average live body weight,8.81e-4,mg,2e-5,2e-5,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),0,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 7,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,body weight of live individuals was measured with an analytical balance,TRUE,01/01/2024
NA,NA,body size,average live body weight,7.68e-4,mg,3e-5,3e-5,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),1,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 7,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,body weight of live individuals was measured with an analytical balance,TRUE,01/01/2024
NA,NA,body size,average live body weight,0.003598,mg,1e-4,1e-4,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),0,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 7,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,body weight of live individuals was measured with an analytical balance,TRUE,01/01/2024
NA,NA,body size,average live body weight,0.00233,mg,9e-5,9e-5,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),1,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 7,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,body weight of live individuals was measured with an analytical balance,TRUE,01/01/2024
NA,NA,body size,average live body weight,9.69e-4,mg,3e-5,3e-5,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),0,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 7,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,body weight of live individuals was measured with an analytical balance,TRUE,01/01/2024
NA,NA,body size,average live body weight,7.01e-4,mg,3e-5,3e-5,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),1,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 7,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,body weight of live individuals was measured with an analytical balance,TRUE,01/01/2024
NA,NA,body size,average live body weight,0.002923,mg,9e-5,9e-5,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),0,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 7,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,body weight of live individuals was measured with an analytical balance,TRUE,01/01/2024
NA,NA,body size,average live body weight,0.002227,mg,5e-5,5e-5,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),1,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 7,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,body weight of live individuals was measured with an analytical balance,TRUE,01/01/2024
NA,NA,body size,average live body weight,9.07e-4,mg,4e-5,4e-5,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),0,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 7,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,body weight of live individuals was measured with an analytical balance,TRUE,01/01/2024
NA,NA,body size,average live body weight,6.7e-4,mg,3e-5,3e-5,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),1,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 7,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,body weight of live individuals was measured with an analytical balance,TRUE,01/01/2024
NA,NA,body size,average live body weight,0.002253,mg,6e-5,6e-5,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),0,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 7,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,body weight of live individuals was measured with an analytical balance,TRUE,01/01/2024
NA,NA,body size,average live body weight,0.001552,mg,6e-5,6e-5,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,PDI,photodynamic inactivation exposure (0 is not exposed 1 is exposed),1,NA,NA,NA,NA,NA,NA,Laboratory of Physiology and Control of Arthropod Vectors at Instituto Oswaldo Cruz Rio de Janeiro RJ Brazil,colony (Rockefeller),NA,NA,decimal,-22.87490131,-43.24541363,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,20,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 7,Garbuio et al. 2024. Influence of temperature combined with photodynamic inactivation on the development of Aedes aegypti.�Photodiagnosis and Photodynamic Therapy�45,10.1016/j.pdpdt.2024.103977,NA,NA,Margo Blaha,margo.blaha@unitn.it,body weight of live individuals was measured with an analytical balance,TRUE,01/01/2024
NA,NA,hatching rate,total proportion of eggs hatching as a function of day length (photoperiod) and to being flooded once with distilled water,0.73,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,16,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes aegypti,NA,NA,NA,800,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,hatching rate,total proportion of eggs hatching as a function of day length (photoperiod) and to being flooded twice with distilled water,0.24,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,16,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes aegypti,NA,NA,NA,800,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,hatching rate,total proportion of eggs not hatching as a function of day length (photoperiod) after being flooded twice with distilled water,0.03,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,16,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes aegypti,NA,NA,NA,800,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,hatching rate,total proportion of eggs hatching as a function of day length (photoperiod) and to being flooded once with distilled water,0.97,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,16,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes albopictus,NA,NA,NA,800,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,hatching rate,total proportion of eggs hatching as a function of day length (photoperiod) and to being flooded twice with distilled water,0.02,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,16,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes albopictus,NA,NA,NA,800,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,hatching rate,total proportion of eggs not hatching as a function of day length (photoperiod) after being flooded twice with distilled water,0.01,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,16,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes albopictus,NA,NA,NA,800,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,hatching rate,total proportion of eggs hatching as a function of day length (photoperiod) and to being flooded once with distilled water,0.23,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,8,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes aegypti,NA,NA,NA,800,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,hatching rate,total proportion of eggs hatching as a function of day length (photoperiod) and to being flooded twice with distilled water,0.62,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,8,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes aegypti,NA,NA,NA,800,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,hatching rate,total proportion of eggs not hatching as a function of day length (photoperiod) after being flooded twice with distilled water,0.15,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,8,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes aegypti,NA,NA,NA,800,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,hatching rate,total proportion of eggs hatching as a function of day length (photoperiod) and to being flooded once with distilled water,0.21,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,8,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes albopictus,NA,NA,NA,800,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,hatching rate,total proportion of eggs hatching as a function of day length (photoperiod) and to being flooded twice with distilled water,0.59,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,8,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes albopictus,NA,NA,NA,800,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,hatching rate,total proportion of eggs not hatching as a function of day length (photoperiod) after being flooded twice with distilled water,0.2,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,8,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes albopictus,NA,NA,NA,800,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,hatching rate,total proportion of eggs hatching as a function of day length (photoperiod) and to being flooded once with distilled water,1,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,16,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes albopictus,NA,NA,NA,800,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,16,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,hatching rate,total proportion of eggs hatching as a function of day length (photoperiod) and to being flooded once with distilled water,0.76,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,16,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes aegypti,NA,NA,NA,800,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,16,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,hatching rate,total proportion of eggs hatching as a function of day length (photoperiod) and to being flooded twice with distilled water,0.04,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,16,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes aegypti,NA,NA,NA,800,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,16,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,hatching rate,total proportion of eggs not hatching as a function of day length (photoperiod) after being flooded twice with distilled water,0.2,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,16,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes aegypti,NA,NA,NA,800,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,16,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,development time,median duration of life stage,20.108,days,22.602,18.537,IQR,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,16,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes aegypti,NA,NA,NA,800,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to adult,NA,16,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,development time,median duration of life stage,23.577,days,25.745,21.951,IQR,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,8,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes aegypti,NA,NA,NA,800,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to adult,NA,16,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,development time,median duration of life stage,22.114,days,24.553,20.976,IQR,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,16,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes albopictus,NA,NA,NA,800,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,16,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,development time,median duration of life stage,29.051,days,29.919,26.07,IQR,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,8,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes albopictus,NA,NA,NA,800,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,16,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,development time,median duration of life stage,8.13,days,8.13,7.046,IQR,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,16,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes aegypti,NA,NA,NA,800,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to adult,NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,development time,median duration of life stage,10.949,days,11.328,9.539,IQR,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,8,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes aegypti,NA,NA,NA,800,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to adult,NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,development time,median duration of life stage,8.835,days,8.835,8.076,IQR,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,16,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes albopictus,NA,NA,NA,800,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,development time,median duration of life stage,10.949,days,10.949,8.347,IQR,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,8,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes albopictus,NA,NA,NA,800,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,development time,mean duration of life stage,28,days,0.61,0.61,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,8,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,16,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,development time,mean duration of life stage,22.75,days,0.86,0.86,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,16,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,16,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,development time,mean duration of life stage,9.85,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,8,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,development time,mean duration of life stage,8.2,days,0.3,0.3,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,16,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,mortality,mean percentage dead individuals per container,86.6,percent,0.24,0.24,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,16,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,16,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,mortality,mean percentage dead individuals per container,46,percent,0.25,0.25,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,8,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,16,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,mortality,mean percentage dead individuals per container,17,percent,0.25,0.25,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,8,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,mortality,mean percentage dead individuals per container,8,percent,0.25,0.25,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,16,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,larval,NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 4,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,survival,mortality proportion and emerged adults pooled by treatment,0.077,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,16,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,16,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,survival,mortality proportion and emerged adults pooled by treatment,0.056,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,16,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,16,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,mortality,mortality proportion and emerged adults pooled by treatment,0.867,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,16,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,dead,NA,16,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,survival,mortality and emerged adults proportion,0.489,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,16,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,survival,mortality proportion and emerged adults pooled by treatment,0.432,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,16,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,mortality,mortality proportion and emerged adults pooled by treatment,0.079,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,16,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,dead,NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,survival,mortality proportion and emerged adults pooled by treatment,0.372,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,8,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,16,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,survival,mortality proportion and emerged adults pooled by treatment,0.168,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,8,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,16,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,mortality,mortality proportion and emerged adults pooled by treatment,0.46,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,8,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,dead,NA,16,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,survival,mortality proportion and emerged adults pooled by treatment,0.41,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,8,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,survival,mortality proportion and emerged adults pooled by treatment,0.42,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,8,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,mortality,mortality proportion and emerged adults pooled by treatment,0.17,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,8,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,dead,NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,survival,mortality proportion and emerged adults pooled by treatment,0.233,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,16,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,16,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,survival,mortality proportion and emerged adults pooled by treatment,0.199,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,16,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,mortality,mortality proportion and emerged adults pooled by treatment,0.568,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,16,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,dead,NA,16,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,survival,mortality proportion and emerged adults pooled by treatment,0.339,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,16,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,survival,mortality proportion and emerged adults pooled by treatment,0.41,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,16,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,mortality,mortality proportion and emerged adults pooled by treatment,0.251,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,16,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,dead,NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,survival,mortality proportion and emerged adults pooled by treatment,0.201,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,8,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,16,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,survival,mortality proportion and emerged adults pooled by treatment,0.169,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,8,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,mortality,mortality proportion and emerged adults pooled by treatment,0.63,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,8,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,dead,NA,16,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,survival,mortality proportion and emerged adults pooled by treatment,0.341,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,8,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,survival,mortality proportion and emerged adults pooled by treatment,0.307,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,8,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,mortality,mortality proportion and emerged adults pooled by treatment,0.352,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,day duration in light hours exposed to,8,hours,NA,NA,NA,NA,NA,Colonia Aurora Misiones Argentina,field,01/01/2019,4,decimal,-27.474722,-54.524444,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,dead,NA,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Garzon et al. 2021. Temperature and photoperiod effects on dormancy status and life cycle parameters in Aedes albopictus and Aedes aegypti from subtropical Argentina. Medical and Veterinary Entomology 35(1),10.1111/mve.12474,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2021
NA,NA,survival,mean percentage of eggs surviving exposure to extreme low temperatures as a function of time,99.851,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to low temperature,0,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes aegypti,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,0,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,mean percentage of eggs surviving exposure to extreme low temperatures as a function of time,96.523,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to low temperature,0.492,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes aegypti,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,0,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,mean percentage of eggs surviving exposure to extreme low temperatures as a function of time,82.169,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to low temperature,0.996,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes aegypti,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,0,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,mean percentage of eggs surviving exposure to extreme low temperatures as a function of time,79.257,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to low temperature,1.501,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes aegypti,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,0,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,mean percentage of eggs surviving exposure to extreme low temperatures as a function of time,74.889,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to low temperature,1.993,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes aegypti,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,0,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,mean percentage of eggs surviving exposure to extreme low temperatures as a function of time,80.297,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to low temperature,2.497,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes aegypti,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,0,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,mean percentage of eggs surviving exposure to extreme low temperatures as a function of time,69.48,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to low temperature,2.989,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes aegypti,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,0,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,mean percentage of eggs surviving exposure to extreme low temperatures as a function of time,106.508,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to low temperature,3.998,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes aegypti,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,0,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,mean percentage of eggs surviving exposure to extreme low temperatures as a function of time,99.851,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to low temperature,0.111,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes aegypti,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,3,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,mean percentage of eggs surviving exposure to extreme low temperatures as a function of time,71.144,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to low temperature,1.095,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes aegypti,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,3,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,mean percentage of eggs surviving exposure to extreme low temperatures as a function of time,108.796,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to low temperature,2.103,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes aegypti,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,3,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,mean percentage of eggs surviving exposure to extreme low temperatures as a function of time,86.33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to low temperature,3.087,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes aegypti,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,3,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,mean percentage of eggs surviving exposure to extreme low temperatures as a function of time,115.869,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to low temperature,4.084,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes aegypti,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,3,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,mean percentage of eggs surviving exposure to extreme low temperatures as a function of time,80.297,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to low temperature,5.092,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes aegypti,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,3,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,mean percentage of eggs surviving exposure to extreme low temperatures as a function of time,125.646,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to low temperature,6.089,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes aegypti,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,3,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,mean percentage of eggs surviving exposure to extreme low temperatures as a function of time,110.253,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to low temperature,7.097,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes aegypti,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,3,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,mean percentage of eggs surviving exposure to extreme low temperatures as a function of time,74.889,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to low temperature,9.09,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes aegypti,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,3,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,mean percentage of eggs surviving exposure to extreme low temperatures as a function of time,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to 0 degC,0,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes aegypti,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,0,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,mean percentage of eggs surviving exposure to extreme low temperatures as a function of time,56.209,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to 0 degC,1,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes aegypti,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,0,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,mean percentage of eggs surviving exposure to extreme low temperatures as a function of time,93.612,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to 0 degC,2,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes aegypti,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,0,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,mean percentage of eggs surviving exposure to extreme low temperatures as a function of time,96.537,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to 0 degC,4,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes aegypti,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,0,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,mean percentage of eggs surviving exposure to extreme low temperatures as a function of time,99.254,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to 0 degC,8,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes aegypti,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,0,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,mean percentage of eggs surviving exposure to extreme low temperatures as a function of time,101.343,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to 0 degC,0,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes albopictus,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,0,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,mean percentage of eggs surviving exposure to extreme low temperatures as a function of time,25.701,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to 0 degC,1,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes albopictus,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,0,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,mean percentage of eggs surviving exposure to extreme low temperatures as a function of time,43.463,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to 0 degC,2,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes albopictus,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,0,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,mean percentage of eggs surviving exposure to extreme low temperatures as a function of time,63.522,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to 0 degC,4,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes albopictus,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,0,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,mean percentage of eggs surviving exposure to extreme low temperatures as a function of time,56.209,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to 0 degC,6,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes albopictus,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,0,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,mean percentage of eggs surviving exposure to extreme low temperatures as a function of time,47.433,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to 0 degC,8,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes albopictus,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,0,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,mean percentage of eggs surviving exposure to extreme low temperatures as a function of time,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to minus 2 degC,0,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes aegypti,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,-2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,mean percentage of eggs surviving exposure to extreme low temperatures as a function of time,59.521,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to minus 2 degC,1,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes aegypti,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,-2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,mean percentage of eggs surviving exposure to extreme low temperatures as a function of time,82.994,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to minus 2 degC,2,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes aegypti,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,-2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,mean percentage of eggs surviving exposure to extreme low temperatures as a function of time,82.784,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to minus 2 degC,3,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes aegypti,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,-2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,mean percentage of eggs surviving exposure to extreme low temperatures as a function of time,74.192,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to minus 2 degC,4,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes aegypti,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,-2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,mean percentage of eggs surviving exposure to extreme low temperatures as a function of time,53.443,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to minus 2 degC,4,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes aegypti,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,-2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,mean percentage of eggs surviving exposure to extreme low temperatures as a function of time,31.018,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to minus 2 degC,6,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes aegypti,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,-2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,mean percentage of eggs surviving exposure to extreme low temperatures as a function of time,16.766,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to minus 2 degC,8,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes aegypti,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,-2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,mean percentage of eggs surviving exposure to extreme low temperatures as a function of time,101.228,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to minus 2 degC,0,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes albopictus,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,mean percentage of eggs surviving exposure to extreme low temperatures as a function of time,51.138,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to minus 2 degC,1,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes albopictus,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,mean percentage of eggs surviving exposure to extreme low temperatures as a function of time,39.611,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to minus 2 degC,2,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes albopictus,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,mean percentage of eggs surviving exposure to extreme low temperatures as a function of time,41.497,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to minus 2 degC,3,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes albopictus,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,mean percentage of eggs surviving exposure to extreme low temperatures as a function of time,45.898,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to minus 2 degC,4,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes albopictus,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,mean percentage of eggs surviving exposure to extreme low temperatures as a function of time,10.479,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to minus 2 degC,6,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes albopictus,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,mean percentage of eggs surviving exposure to extreme low temperatures as a function of time,14.461,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to minus 2 degC,8,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes albopictus,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,mean percentage of eggs surviving exposure to extreme low temperatures as a function of time,99.97,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to minus 6 degC,0,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes aegypti,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,-6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,mean percentage of eggs surviving exposure to extreme low temperatures as a function of time,16.557,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to minus 6 degC,1,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes aegypti,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,-6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,mean percentage of eggs surviving exposure to extreme low temperatures as a function of time,10.269,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to minus 6 degC,2,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes aegypti,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,-6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,mean percentage of eggs surviving exposure to extreme low temperatures as a function of time,101.437,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to minus 6 degC,0,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes albopictus,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,mean percentage of eggs surviving exposure to extreme low temperatures as a function of time,15.928,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to minus 6 degC,1,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes albopictus,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,mean percentage of eggs surviving exposure to extreme low temperatures as a function of time,5.24,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to minus 6 degC,2,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes albopictus,NA,NA,NA,120,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,percentage of hatched larvae surviving to adult stage after cold exposure of eggs,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to zero degC,0,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile,NA,0,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,percentage of hatched larvae surviving to adult stage after cold exposure of eggs,96.07,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to zero degC,2,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile,NA,0,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,percentage of hatched larvae surviving to adult stage after cold exposure of eggs,82.927,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to zero degC,4,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile,NA,0,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,percentage of hatched larvae surviving to adult stage after cold exposure of eggs,82.927,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to zero degC,8,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile,NA,0,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,percentage of hatched larvae surviving to adult stage after cold exposure of eggs,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to zero degC,0,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile,NA,0,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,percentage of hatched larvae surviving to adult stage after cold exposure of eggs,95.935,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to zero degC,1,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile,NA,0,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,percentage of hatched larvae surviving to adult stage after cold exposure of eggs,73.442,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to zero degC,4,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile,NA,0,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,percentage of hatched larvae surviving to adult stage after cold exposure of eggs,73.442,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to zero degC,8,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile,NA,0,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,percentage of hatched larvae surviving to adult stage after cold exposure of eggs,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to minus 2 degC,0,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile,NA,-2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4b,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,percentage of hatched larvae surviving to adult stage after cold exposure of eggs,94.54,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to minus 2 degC,1,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile,NA,-2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4b,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,percentage of hatched larvae surviving to adult stage after cold exposure of eggs,86.925,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to minus 2 degC,2,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile,NA,-2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4b,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,percentage of hatched larvae surviving to adult stage after cold exposure of eggs,62.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to minus 2 degC,3,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile,NA,-2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4b,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,percentage of hatched larvae surviving to adult stage after cold exposure of eggs,32.615,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to minus 2 degC,6,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile,NA,-2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4b,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,percentage of hatched larvae surviving to adult stage after cold exposure of eggs,32.471,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to minus 2 degC,8,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile,NA,-2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4b,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,percentage of hatched larvae surviving to adult stage after cold exposure of eggs,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to minus 2 degC,0,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile,NA,-2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4b,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,percentage of hatched larvae surviving to adult stage after cold exposure of eggs,82.471,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to minus 2 degC,1,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile,NA,-2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4b,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,percentage of hatched larvae surviving to adult stage after cold exposure of eggs,69.397,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to minus 2 degC,2,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile,NA,-2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4b,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,percentage of hatched larvae surviving to adult stage after cold exposure of eggs,33.477,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to minus 2 degC,3,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile,NA,-2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4b,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,percentage of hatched larvae surviving to adult stage after cold exposure of eggs,16.523,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to minus 2 degC,6,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile,NA,-2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4b,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,percentage of hatched larvae surviving to adult stage after cold exposure of eggs,16.523,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to minus 2 degC,8,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile,NA,-2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4b,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,percentage of hatched larvae surviving to adult stage after cold exposure of eggs,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to minus 6 degC,0,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile,NA,-6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4c,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,percentage of hatched larvae surviving to adult stage after cold exposure of eggs,42.857,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to minus 6 degC,1,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile,NA,-6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4c,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,percentage of hatched larvae surviving to adult stage after cold exposure of eggs,42.857,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to minus 6 degC,2,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes aegypti,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile,NA,-6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4c,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,percentage of hatched larvae surviving to adult stage after cold exposure of eggs,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to minus 6 degC,0,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile,NA,-6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4c,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,percentage of hatched larvae surviving to adult stage after cold exposure of eggs,29.939,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to minus 6 degC,1,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile,NA,-6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4c,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,survival,percentage of hatched larvae surviving to adult stage after cold exposure of eggs,29.939,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,days of exposure to minus 6 degC,2,days,NA,NA,NA,NA,NA,Chitwan Nepal,field,01/01/2017,4,decimal,27.6511,84.412,Aedes albopictus,NA,NA,NA,100,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile,NA,-6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4c,Kramer et al. 2020. Does winter cold really limit the dengue vector Aedes aegypti in Europe. Parasites and Vectors 13,10.1186/s13071-020-04054-w,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2020
NA,NA,chill coma onset,mean chill coma onset in cold acclimated Ae. aegypti,5.682,degrees Celsius,0.386,0.386,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Department of Biology York University Toronto ON Canada,colony,01/01/2007,1,decimal,43.7743248,-79.50433252,Aedes aegypti,NA,NA,NA,34,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,15,Celsius,NA,NA,NA,NA,15,Celsius,5,acclimation groups were maintained on a 12 h to 12 h light dark cycle. adult mosquitoes were left at their respective acclimation temperatures for 5 days,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Jass et al. 2019. An impressive capacity for cold tolerance plasticity protects against ionoregulatory collapse in the disease vector Aedes aegypti. Journal of Experimental Biology 222(24) p.jeb214056.,10.1242/jeb.214056,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2019
NA,NA,chill coma onset,mean chill coma onset in warm acclimated Ae. aegypti,6.133,degrees Celsius,0,0,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Department of Biology York University Toronto ON Canada,colony,01/01/2007,1,decimal,43.7743248,-79.50433252,Aedes aegypti,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,25,Celsius,NA,NA,NA,NA,25,Celsius,5,acclimation groups were maintained on a 12 h to 12 h light dark cycle. adult mosquitoes were left at their respective acclimation temperatures for 5 days,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Jass et al. 2019. An impressive capacity for cold tolerance plasticity protects against ionoregulatory collapse in the disease vector Aedes aegypti. Journal of Experimental Biology 222(24) p.jeb214056.,10.1242/jeb.214056,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2019
NA,NA,chill coma onset,mean chill coma onset in cold acclimated Ae. aegypti,2.007,degrees Celsius,0.446,0.446,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Department of Biology York University Toronto ON Canada,colony,01/01/2007,1,decimal,43.7743248,-79.50433252,Aedes aegypti,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,15,Celsius,NA,NA,NA,NA,15,Celsius,5,acclimation groups were maintained on a 12 h to 12 h light dark cycle. adult mosquitoes were left at their respective acclimation temperatures for 5 days,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Jass et al. 2019. An impressive capacity for cold tolerance plasticity protects against ionoregulatory collapse in the disease vector Aedes aegypti. Journal of Experimental Biology 222(24) p.jeb214056.,10.1242/jeb.214056,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2019
NA,NA,chill coma onset,mean chill coma onset in warm acclimated Ae. aegypti,5.526,degrees Celsius,0.768,0.768,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Department of Biology York University Toronto ON Canada,colony,01/01/2007,1,decimal,43.7743248,-79.50433252,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,25,Celsius,5,acclimation groups were maintained on a 12 h to 12 h light dark cycle. adult mosquitoes were left at their respective acclimation temperatures for 5 days,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Jass et al. 2019. An impressive capacity for cold tolerance plasticity protects against ionoregulatory collapse in the disease vector Aedes aegypti. Journal of Experimental Biology 222(24) p.jeb214056.,10.1242/jeb.214056,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2019
NA,NA,chill coma onset,mean chill coma onset in cold acclimated Ae. aegypti,2.627,degrees Celsius,0,0,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Department of Biology York University Toronto ON Canada,colony,01/01/2007,1,decimal,43.7743248,-79.50433252,Aedes aegypti,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,15,Celsius,NA,NA,NA,NA,15,Celsius,5,acclimation groups were maintained on a 12 h to 12 h light dark cycle. adult mosquitoes were left at their respective acclimation temperatures for 5 days,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Jass et al. 2019. An impressive capacity for cold tolerance plasticity protects against ionoregulatory collapse in the disease vector Aedes aegypti. Journal of Experimental Biology 222(24) p.jeb214056.,10.1242/jeb.214056,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2019
NA,NA,chill coma onset,mean chill coma onset in warm acclimated Ae. aegypti,9.416,degrees Celsius,1.388,1.388,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Department of Biology York University Toronto ON Canada,colony,01/01/2007,1,decimal,43.7743248,-79.50433252,Aedes aegypti,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,NA,NA,NA,NA,25,Celsius,5,acclimation groups were maintained on a 12 h to 12 h light dark cycle. adult mosquitoes were left at their respective acclimation temperatures for 5 days,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Jass et al. 2019. An impressive capacity for cold tolerance plasticity protects against ionoregulatory collapse in the disease vector Aedes aegypti. Journal of Experimental Biology 222(24) p.jeb214056.,10.1242/jeb.214056,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2019
NA,NA,chill coma recovery time,mean chill coma recovery time (CCRT) in cold acclimated individuals,13.659,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,exposure duration to low temperature (interactor1temp),4,hours,NA,NA,NA,NA,NA,Department of Biology York University Toronto ON Canada,colony,01/01/2007,1,decimal,43.7743248,-79.50433252,Aedes aegypti,NA,NA,NA,71,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,2,Celsius,NA,NA,NA,NA,15,Celsius,5,acclimation groups were maintained on a 12 h to 12 h light dark cycle. adult mosquitoes were left at their respective acclimation temperatures for 5 days,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Jass et al. 2019. An impressive capacity for cold tolerance plasticity protects against ionoregulatory collapse in the disease vector Aedes aegypti. Journal of Experimental Biology 222(24) p.jeb214056.,10.1242/jeb.214056,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2019
NA,NA,chill coma recovery time,mean chill coma recovery time (CCRT) in cold acclimated individuals,12.488,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,exposure duration to low temperature (interactor1temp),8,hours,NA,NA,NA,NA,NA,Department of Biology York University Toronto ON Canada,colony,01/01/2007,1,decimal,43.7743248,-79.50433252,Aedes aegypti,NA,NA,NA,72,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,2,Celsius,NA,NA,NA,NA,15,Celsius,5,acclimation groups were maintained on a 12 h to 12 h light dark cycle. adult mosquitoes were left at their respective acclimation temperatures for 5 days,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Jass et al. 2019. An impressive capacity for cold tolerance plasticity protects against ionoregulatory collapse in the disease vector Aedes aegypti. Journal of Experimental Biology 222(24) p.jeb214056.,10.1242/jeb.214056,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2019
NA,NA,chill coma recovery time,mean chill coma recovery time (CCRT) in cold acclimated individuals,12.488,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,exposure duration to low temperature (interactor1temp),12,hours,NA,NA,NA,NA,NA,Department of Biology York University Toronto ON Canada,colony,01/01/2007,1,decimal,43.7743248,-79.50433252,Aedes aegypti,NA,NA,NA,72,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,2,Celsius,NA,NA,NA,NA,15,Celsius,5,acclimation groups were maintained on a 12 h to 12 h light dark cycle. adult mosquitoes were left at their respective acclimation temperatures for 5 days,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Jass et al. 2019. An impressive capacity for cold tolerance plasticity protects against ionoregulatory collapse in the disease vector Aedes aegypti. Journal of Experimental Biology 222(24) p.jeb214056.,10.1242/jeb.214056,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2019
NA,NA,chill coma recovery time,mean chill coma recovery time (CCRT) in cold acclimated individuals,12.098,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,exposure duration to low temperature (interactor1temp),16,hours,NA,NA,NA,NA,NA,Department of Biology York University Toronto ON Canada,colony,01/01/2007,1,decimal,43.7743248,-79.50433252,Aedes aegypti,NA,NA,NA,70,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,2,Celsius,NA,NA,NA,NA,15,Celsius,5,acclimation groups were maintained on a 12 h to 12 h light dark cycle. adult mosquitoes were left at their respective acclimation temperatures for 5 days,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Jass et al. 2019. An impressive capacity for cold tolerance plasticity protects against ionoregulatory collapse in the disease vector Aedes aegypti. Journal of Experimental Biology 222(24) p.jeb214056.,10.1242/jeb.214056,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2019
NA,NA,chill coma recovery time,mean chill coma recovery time (CCRT) in warm acclimated individuals,19.317,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,exposure duration to low temperature (interactor1temp),4,hours,NA,NA,NA,NA,NA,Department of Biology York University Toronto ON Canada,colony,01/01/2007,1,decimal,43.7743248,-79.50433252,Aedes aegypti,NA,NA,NA,72,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,2,Celsius,NA,NA,NA,NA,25,Celsius,5,acclimation groups were maintained on a 12 h to 12 h light dark cycle. adult mosquitoes were left at their respective acclimation temperatures for 5 days,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Jass et al. 2019. An impressive capacity for cold tolerance plasticity protects against ionoregulatory collapse in the disease vector Aedes aegypti. Journal of Experimental Biology 222(24) p.jeb214056.,10.1242/jeb.214056,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2019
NA,NA,chill coma recovery time,mean chill coma recovery time (CCRT) in warm acclimated individuals,26.537,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,exposure duration to low temperature (interactor1temp),8,hours,NA,NA,NA,NA,NA,Department of Biology York University Toronto ON Canada,colony,01/01/2007,1,decimal,43.7743248,-79.50433252,Aedes aegypti,NA,NA,NA,69,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,2,Celsius,NA,NA,NA,NA,25,Celsius,5,acclimation groups were maintained on a 12 h to 12 h light dark cycle. adult mosquitoes were left at their respective acclimation temperatures for 5 days,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Jass et al. 2019. An impressive capacity for cold tolerance plasticity protects against ionoregulatory collapse in the disease vector Aedes aegypti. Journal of Experimental Biology 222(24) p.jeb214056.,10.1242/jeb.214056,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2019
NA,NA,chill coma recovery time,mean chill coma recovery time (CCRT) in warm acclimated individuals,34.537,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,exposure duration to low temperature (interactor1temp),12,hours,NA,NA,NA,NA,NA,Department of Biology York University Toronto ON Canada,colony,01/01/2007,1,decimal,43.7743248,-79.50433252,Aedes aegypti,NA,NA,NA,63,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,2,Celsius,NA,NA,NA,NA,25,Celsius,5,acclimation groups were maintained on a 12 h to 12 h light dark cycle. adult mosquitoes were left at their respective acclimation temperatures for 5 days,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Jass et al. 2019. An impressive capacity for cold tolerance plasticity protects against ionoregulatory collapse in the disease vector Aedes aegypti. Journal of Experimental Biology 222(24) p.jeb214056.,10.1242/jeb.214056,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2019
NA,NA,chill coma recovery time,mean chill coma recovery time (CCRT) in warm acclimated individuals,32.78,mins,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,exposure duration to low temperature (interactor1temp),16,hours,NA,NA,NA,NA,NA,Department of Biology York University Toronto ON Canada,colony,01/01/2007,1,decimal,43.7743248,-79.50433252,Aedes aegypti,NA,NA,NA,64,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,2,Celsius,NA,NA,NA,NA,25,Celsius,5,acclimation groups were maintained on a 12 h to 12 h light dark cycle. adult mosquitoes were left at their respective acclimation temperatures for 5 days,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Jass et al. 2019. An impressive capacity for cold tolerance plasticity protects against ionoregulatory collapse in the disease vector Aedes aegypti. Journal of Experimental Biology 222(24) p.jeb214056.,10.1242/jeb.214056,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2019
NA,NA,chill injury,proportion injured by chill exposure in cold acclimated larval A. aegypti,0,proportion,0,0,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,exposure duration to low temperature (interactor1temp),4,hours,NA,NA,NA,NA,NA,Department of Biology York University Toronto ON Canada,colony,01/01/2007,1,decimal,43.7743248,-79.50433252,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,2,Celsius,NA,NA,NA,NA,15,Celsius,5,acclimation groups were maintained on a 12 h to 12 h light dark cycle. adult mosquitoes were left at their respective acclimation temperatures for 5 days,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Jass et al. 2019. An impressive capacity for cold tolerance plasticity protects against ionoregulatory collapse in the disease vector Aedes aegypti. Journal of Experimental Biology 222(24) p.jeb214056.,10.1242/jeb.214056,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2019
NA,NA,chill injury,proportion injured by chill exposure in cold acclimated larval A. aegypti,0,proportion,0,0,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,exposure duration to low temperature (interactor1temp),8,hours,NA,NA,NA,NA,NA,Department of Biology York University Toronto ON Canada,colony,01/01/2007,1,decimal,43.7743248,-79.50433252,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,2,Celsius,NA,NA,NA,NA,15,Celsius,5,acclimation groups were maintained on a 12 h to 12 h light dark cycle. adult mosquitoes were left at their respective acclimation temperatures for 5 days,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Jass et al. 2019. An impressive capacity for cold tolerance plasticity protects against ionoregulatory collapse in the disease vector Aedes aegypti. Journal of Experimental Biology 222(24) p.jeb214056.,10.1242/jeb.214056,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2019
NA,NA,chill injury,proportion injured by chill exposure in cold acclimated larval A. aegypti,0.013,proportion,0.016,0.016,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,exposure duration to low temperature (interactor1temp),12,hours,NA,NA,NA,NA,NA,Department of Biology York University Toronto ON Canada,colony,01/01/2007,1,decimal,43.7743248,-79.50433252,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,2,Celsius,NA,NA,NA,NA,15,Celsius,5,acclimation groups were maintained on a 12 h to 12 h light dark cycle. adult mosquitoes were left at their respective acclimation temperatures for 5 days,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Jass et al. 2019. An impressive capacity for cold tolerance plasticity protects against ionoregulatory collapse in the disease vector Aedes aegypti. Journal of Experimental Biology 222(24) p.jeb214056.,10.1242/jeb.214056,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2019
NA,NA,chill injury,proportion injured by chill exposure in cold acclimated larval A. aegypti,0.028,proportion,0.029,0.029,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,exposure duration to low temperature (interactor1temp),16,hours,NA,NA,NA,NA,NA,Department of Biology York University Toronto ON Canada,colony,01/01/2007,1,decimal,43.7743248,-79.50433252,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,2,Celsius,NA,NA,NA,NA,15,Celsius,5,acclimation groups were maintained on a 12 h to 12 h light dark cycle. adult mosquitoes were left at their respective acclimation temperatures for 5 days,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Jass et al. 2019. An impressive capacity for cold tolerance plasticity protects against ionoregulatory collapse in the disease vector Aedes aegypti. Journal of Experimental Biology 222(24) p.jeb214056.,10.1242/jeb.214056,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2019
NA,NA,chill injury,proportion injured by chill exposure in warm acclimated larval A. aegypti,0,proportion,0,0,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,exposure duration to low temperature (interactor1temp),4,hours,NA,NA,NA,NA,NA,Department of Biology York University Toronto ON Canada,colony,01/01/2007,1,decimal,43.7743248,-79.50433252,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,2,Celsius,NA,NA,NA,NA,25,Celsius,5,acclimation groups were maintained on a 12 h to 12 h light dark cycle. adult mosquitoes were left at their respective acclimation temperatures for 5 days,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Jass et al. 2019. An impressive capacity for cold tolerance plasticity protects against ionoregulatory collapse in the disease vector Aedes aegypti. Journal of Experimental Biology 222(24) p.jeb214056.,10.1242/jeb.214056,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2019
NA,NA,chill injury,proportion injured by chill exposure in warm acclimated larval A. aegypti,0.083,proportion,0.042,0.042,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,exposure duration to low temperature (interactor1temp),8,hours,NA,NA,NA,NA,NA,Department of Biology York University Toronto ON Canada,colony,01/01/2007,1,decimal,43.7743248,-79.50433252,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,2,Celsius,NA,NA,NA,NA,25,Celsius,5,acclimation groups were maintained on a 12 h to 12 h light dark cycle. adult mosquitoes were left at their respective acclimation temperatures for 5 days,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Jass et al. 2019. An impressive capacity for cold tolerance plasticity protects against ionoregulatory collapse in the disease vector Aedes aegypti. Journal of Experimental Biology 222(24) p.jeb214056.,10.1242/jeb.214056,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2019
NA,NA,chill injury,proportion injured by chill exposure in warm acclimated larval A. aegypti,0.319,proportion,0.099,0.099,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,exposure duration to low temperature (interactor1temp),12,hours,NA,NA,NA,NA,NA,Department of Biology York University Toronto ON Canada,colony,01/01/2007,1,decimal,43.7743248,-79.50433252,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,2,Celsius,NA,NA,NA,NA,25,Celsius,5,acclimation groups were maintained on a 12 h to 12 h light dark cycle. adult mosquitoes were left at their respective acclimation temperatures for 5 days,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Jass et al. 2019. An impressive capacity for cold tolerance plasticity protects against ionoregulatory collapse in the disease vector Aedes aegypti. Journal of Experimental Biology 222(24) p.jeb214056.,10.1242/jeb.214056,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2019
NA,NA,chill injury,proportion injured by chill exposure in warm acclimated larval A. aegypti,0.291,proportion,0.089,0.089,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,exposure duration to low temperature (interactor1temp),16,hours,NA,NA,NA,NA,NA,Department of Biology York University Toronto ON Canada,colony,01/01/2007,1,decimal,43.7743248,-79.50433252,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,2,Celsius,NA,NA,NA,NA,25,Celsius,5,acclimation groups were maintained on a 12 h to 12 h light dark cycle. adult mosquitoes were left at their respective acclimation temperatures for 5 days,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Jass et al. 2019. An impressive capacity for cold tolerance plasticity protects against ionoregulatory collapse in the disease vector Aedes aegypti. Journal of Experimental Biology 222(24) p.jeb214056.,10.1242/jeb.214056,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2019
NA,NA,chill coma recovery time,mean CCRT of cold acclimated adult mosquitoes following 6 hours at interactor1temp,17.101,mins,3.341,3.341,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,low temperature exposure,2,degrees Celsius,NA,NA,NA,NA,NA,Department of Biology York University Toronto ON Canada,colony,01/01/2007,1,decimal,43.7743248,-79.50433252,Aedes aegypti,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,15,Celsius,NA,NA,NA,NA,15,Celsius,5,acclimation groups were maintained on a 12 h to 12 h light dark cycle. adult mosquitoes were left at their respective acclimation temperatures for 5 days,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Jass et al. 2019. An impressive capacity for cold tolerance plasticity protects against ionoregulatory collapse in the disease vector Aedes aegypti. Journal of Experimental Biology 222(24) p.jeb214056.,10.1242/jeb.214056,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2019
NA,NA,chill coma recovery time,mean CCRT of warm acclimated adult mosquitoes following 6 hours at interactor1temp,51.695,mins,8.059,8.059,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,low temperature exposure,2,degrees Celsius,NA,NA,NA,NA,NA,Department of Biology York University Toronto ON Canada,colony,01/01/2007,1,decimal,43.7743248,-79.50433252,Aedes aegypti,NA,NA,NA,24,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,25,Celsius,5,acclimation groups were maintained on a 12 h to 12 h light dark cycle. adult mosquitoes were left at their respective acclimation temperatures for 5 days,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Jass et al. 2019. An impressive capacity for cold tolerance plasticity protects against ionoregulatory collapse in the disease vector Aedes aegypti. Journal of Experimental Biology 222(24) p.jeb214056.,10.1242/jeb.214056,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2019
NA,NA,chill coma recovery time,mean CCRT of cold acclimated adult mosquitoes following 6 hours at interactor1temp,29.681,mins,4.127,4.127,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,low temperature exposure,2,degrees Celsius,NA,NA,NA,NA,NA,Department of Biology York University Toronto ON Canada,colony,01/01/2007,1,decimal,43.7743248,-79.50433252,Aedes aegypti,NA,NA,NA,38,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,15,Celsius,NA,NA,NA,NA,15,Celsius,5,acclimation groups were maintained on a 12 h to 12 h light dark cycle. adult mosquitoes were left at their respective acclimation temperatures for 5 days,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Jass et al. 2019. An impressive capacity for cold tolerance plasticity protects against ionoregulatory collapse in the disease vector Aedes aegypti. Journal of Experimental Biology 222(24) p.jeb214056.,10.1242/jeb.214056,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2019
NA,NA,chill coma recovery time,mean CCRT of warm acclimated adult mosquitoes following 6 hours at interactor1temp,61.523,mins,7.47,7.47,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,low temperature exposure,2,degrees Celsius,NA,NA,NA,NA,NA,Department of Biology York University Toronto ON Canada,colony,01/01/2007,1,decimal,43.7743248,-79.50433252,Aedes aegypti,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,25,Celsius,NA,NA,NA,NA,25,Celsius,5,acclimation groups were maintained on a 12 h to 12 h light dark cycle. adult mosquitoes were left at their respective acclimation temperatures for 5 days,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Jass et al. 2019. An impressive capacity for cold tolerance plasticity protects against ionoregulatory collapse in the disease vector Aedes aegypti. Journal of Experimental Biology 222(24) p.jeb214056.,10.1242/jeb.214056,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2019
NA,NA,blood feeding,proportion of females that fed following acclimation to cold temperatures,0.029,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Department of Biology York University Toronto ON Canada,colony,01/01/2007,1,decimal,43.7743248,-79.50433252,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,15,Celsius,NA,NA,NA,NA,15,Celsius,5,acclimation groups were maintained on a 12 h to 12 h light dark cycle. adult mosquitoes were left at their respective acclimation temperatures for 5 days,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Jass et al. 2019. An impressive capacity for cold tolerance plasticity protects against ionoregulatory collapse in the disease vector Aedes aegypti. Journal of Experimental Biology 222(24) p.jeb214056.,10.1242/jeb.214056,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2019
NA,NA,blood feeding,proportion of females that fed following acclimation to warm temperatures,0.521,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Department of Biology York University Toronto ON Canada,colony,01/01/2007,1,decimal,43.7743248,-79.50433252,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,25,Celsius,NA,NA,NA,NA,25,Celsius,5,acclimation groups were maintained on a 12 h to 12 h light dark cycle. adult mosquitoes were left at their respective acclimation temperatures for 5 days,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Jass et al. 2019. An impressive capacity for cold tolerance plasticity protects against ionoregulatory collapse in the disease vector Aedes aegypti. Journal of Experimental Biology 222(24) p.jeb214056.,10.1242/jeb.214056,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2019
NA,NA,hemolymph composition,mean concentration of Na+ following cold stress,82.278,mmol/L,3.359,3.359,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to zero degC after being acclimated at interactor1temp,0,hours,NA,NA,NA,NA,NA,Department of Biology York University Toronto ON Canada,colony,01/01/2007,1,decimal,43.7743248,-79.50433252,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Jass et al. 2019. An impressive capacity for cold tolerance plasticity protects against ionoregulatory collapse in the disease vector Aedes aegypti. Journal of Experimental Biology 222(24) p.jeb214056.,10.1242/jeb.214056,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2019
NA,NA,hemolymph composition,mean concentration of Na+ following cold stress,67.683,mmol/L,0,0,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to zero degC after being acclimated at interactor1temp,24,hours,NA,NA,NA,NA,NA,Department of Biology York University Toronto ON Canada,colony,01/01/2007,1,decimal,43.7743248,-79.50433252,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Jass et al. 2019. An impressive capacity for cold tolerance plasticity protects against ionoregulatory collapse in the disease vector Aedes aegypti. Journal of Experimental Biology 222(24) p.jeb214056.,10.1242/jeb.214056,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2019
NA,NA,hemolymph composition,mean concentration of Na+ following cold stress,87.027,mmol/L,2.085,2.085,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to zero degC after being acclimated at interactor1temp,0,hours,NA,NA,NA,NA,NA,Department of Biology York University Toronto ON Canada,colony,01/01/2007,1,decimal,43.7743248,-79.50433252,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Jass et al. 2019. An impressive capacity for cold tolerance plasticity protects against ionoregulatory collapse in the disease vector Aedes aegypti. Journal of Experimental Biology 222(24) p.jeb214056.,10.1242/jeb.214056,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2019
NA,NA,hemolymph composition,mean concentration of Na+ following cold stress,67.336,mmol/L,0,0,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to zero degC after being acclimated at interactor1temp,24,hours,NA,NA,NA,NA,NA,Department of Biology York University Toronto ON Canada,colony,01/01/2007,1,decimal,43.7743248,-79.50433252,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Jass et al. 2019. An impressive capacity for cold tolerance plasticity protects against ionoregulatory collapse in the disease vector Aedes aegypti. Journal of Experimental Biology 222(24) p.jeb214056.,10.1242/jeb.214056,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2019
NA,NA,hemolymph composition,mean concentration of K+ following cold stress,4.132,mmol/L,0,0,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to zero degC after being acclimated at interactor1temp,0,hours,NA,NA,NA,NA,NA,Department of Biology York University Toronto ON Canada,colony,01/01/2007,1,decimal,43.7743248,-79.50433252,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Jass et al. 2019. An impressive capacity for cold tolerance plasticity protects against ionoregulatory collapse in the disease vector Aedes aegypti. Journal of Experimental Biology 222(24) p.jeb214056.,10.1242/jeb.214056,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2019
NA,NA,hemolymph composition,mean concentration of K+ following cold stress,6.8,mmol/L,0.944,0.944,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to zero degC after being acclimated at interactor1temp,24,hours,NA,NA,NA,NA,NA,Department of Biology York University Toronto ON Canada,colony,01/01/2007,1,decimal,43.7743248,-79.50433252,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,15,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Jass et al. 2019. An impressive capacity for cold tolerance plasticity protects against ionoregulatory collapse in the disease vector Aedes aegypti. Journal of Experimental Biology 222(24) p.jeb214056.,10.1242/jeb.214056,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2019
NA,NA,hemolymph composition,mean concentration of K+ following cold stress,4.328,mmol/L,0,0,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to zero degC after being acclimated at interactor1temp,0,hours,NA,NA,NA,NA,NA,Department of Biology York University Toronto ON Canada,colony,01/01/2007,1,decimal,43.7743248,-79.50433252,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Jass et al. 2019. An impressive capacity for cold tolerance plasticity protects against ionoregulatory collapse in the disease vector Aedes aegypti. Journal of Experimental Biology 222(24) p.jeb214056.,10.1242/jeb.214056,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2019
NA,NA,hemolymph composition,mean concentration of K+ following cold stress,10.184,mmol/L,1.107,1.107,sem,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to zero degC after being acclimated at interactor1temp,24,hours,NA,NA,NA,NA,NA,Department of Biology York University Toronto ON Canada,colony,01/01/2007,1,decimal,43.7743248,-79.50433252,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Jass et al. 2019. An impressive capacity for cold tolerance plasticity protects against ionoregulatory collapse in the disease vector Aedes aegypti. Journal of Experimental Biology 222(24) p.jeb214056.,10.1242/jeb.214056,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2019
NA,NA,infection rate,average Wolbachia (wMel) density,1.56,unknown,0.39,0.39,sd,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,ICMR-Vector Control Research Centre Puducherry India,colony,01/01/2007,1,decimal,11.95130719,79.79364095,Aedes aegypti,NA,NA,NA,54,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Gunasekaran et al.  2022. Sensitivity of w Mel and w AlbB Wolbachia infections in Aedes aegypti Puducherry (Indian) strains to heat stress during larval development. Parasites and Vectors 15(1),10.1186/s13071-022-05345-0,NA,NA,Margo Blaha,margo.blaha@unitn.it,n=200 individual larvae were exposed. interactor1number is the number of individuals that were screened,TRUE,01/01/2022
NA,NA,infection rate,average Wolbachia (wMel) density,2.73,unknown,0.77,0.77,sd,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,ICMR-Vector Control Research Centre Puducherry India,colony,01/01/2007,1,decimal,11.95130719,79.79364095,Aedes aegypti,NA,NA,NA,53,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Gunasekaran et al.  2022. Sensitivity of w Mel and w AlbB Wolbachia infections in Aedes aegypti Puducherry (Indian) strains to heat stress during larval development. Parasites and Vectors 15(1),10.1186/s13071-022-05345-0,NA,NA,Margo Blaha,margo.blaha@unitn.it,n=200 individual larvae were exposed. interactor1number is the number of individuals that were screened,TRUE,01/01/2022
NA,NA,infection rate,average Wolbachia (wMel) density,28.95,unknown,5.28,5.28,sd,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,ICMR-Vector Control Research Centre Puducherry India,colony,01/01/2007,1,decimal,11.95130719,79.79364095,Aedes aegypti,NA,NA,NA,51,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Gunasekaran et al.  2022. Sensitivity of w Mel and w AlbB Wolbachia infections in Aedes aegypti Puducherry (Indian) strains to heat stress during larval development. Parasites and Vectors 15(1),10.1186/s13071-022-05345-0,NA,NA,Margo Blaha,margo.blaha@unitn.it,n=200 individual larvae were exposed. interactor1number is the number of individuals that were screened,TRUE,01/01/2022
NA,NA,infection rate,average Wolbachia (wMel) density,30,unknown,7.51,7.51,sd,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,ICMR-Vector Control Research Centre Puducherry India,colony,01/01/2007,1,decimal,11.95130719,79.79364095,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Gunasekaran et al.  2022. Sensitivity of w Mel and w AlbB Wolbachia infections in Aedes aegypti Puducherry (Indian) strains to heat stress during larval development. Parasites and Vectors 15(1),10.1186/s13071-022-05345-0,NA,NA,Margo Blaha,margo.blaha@unitn.it,n=200 individual larvae were exposed. interactor1number is the number of individuals that were screened,TRUE,01/01/2022
NA,NA,infection rate,average Wolbachia (wAlbB) density,10.16,unknown,3.91,3.91,sd,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,ICMR-Vector Control Research Centre Puducherry India,colony,01/01/2007,1,decimal,11.95130719,79.79364095,Aedes aegypti,NA,NA,NA,46,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Gunasekaran et al.  2022. Sensitivity of w Mel and w AlbB Wolbachia infections in Aedes aegypti Puducherry (Indian) strains to heat stress during larval development. Parasites and Vectors 15(1),10.1186/s13071-022-05345-0,NA,NA,Margo Blaha,margo.blaha@unitn.it,n=200 individual larvae were exposed. interactor1number is the number of individuals that were screened,TRUE,01/01/2022
NA,NA,infection rate,average Wolbachia (wAlbB) density,11.61,unknown,3.76,3.76,sd,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,ICMR-Vector Control Research Centre Puducherry India,colony,01/01/2007,1,decimal,11.95130719,79.79364095,Aedes aegypti,NA,NA,NA,47,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Gunasekaran et al.  2022. Sensitivity of w Mel and w AlbB Wolbachia infections in Aedes aegypti Puducherry (Indian) strains to heat stress during larval development. Parasites and Vectors 15(1),10.1186/s13071-022-05345-0,NA,NA,Margo Blaha,margo.blaha@unitn.it,n=200 individual larvae were exposed. interactor1number is the number of individuals that were screened,TRUE,01/01/2022
NA,NA,infection rate,average Wolbachia (wAlbB) density,22.99,unknown,6.78,6.78,sd,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,ICMR-Vector Control Research Centre Puducherry India,colony,01/01/2007,1,decimal,11.95130719,79.79364095,Aedes aegypti,NA,NA,NA,49,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Gunasekaran et al.  2022. Sensitivity of w Mel and w AlbB Wolbachia infections in Aedes aegypti Puducherry (Indian) strains to heat stress during larval development. Parasites and Vectors 15(1),10.1186/s13071-022-05345-0,NA,NA,Margo Blaha,margo.blaha@unitn.it,n=200 individual larvae were exposed. interactor1number is the number of individuals that were screened,TRUE,01/01/2022
NA,NA,infection rate,average Wolbachia (wAlbB) density,29.52,unknown,6.9,6.9,sd,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,ICMR-Vector Control Research Centre Puducherry India,colony,01/01/2007,1,decimal,11.95130719,79.79364095,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Gunasekaran et al.  2022. Sensitivity of w Mel and w AlbB Wolbachia infections in Aedes aegypti Puducherry (Indian) strains to heat stress during larval development. Parasites and Vectors 15(1),10.1186/s13071-022-05345-0,NA,NA,Margo Blaha,margo.blaha@unitn.it,n=200 individual larvae were exposed. interactor1number is the number of individuals that were screened,TRUE,01/01/2022
NA,NA,infection frequency,percentage testing positive for Wolbachia infection,100,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,ICMR-Vector Control Research Centre Puducherry India,colony,01/01/2007,1,decimal,11.95130719,79.79364095,Aedes aegypti,NA,NA,NA,54,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Gunasekaran et al.  2022. Sensitivity of w Mel and w AlbB Wolbachia infections in Aedes aegypti Puducherry (Indian) strains to heat stress during larval development. Parasites and Vectors 15(1),10.1186/s13071-022-05345-0,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2022
NA,NA,infection frequency,percentage testing positive for Wolbachia infection,100,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,ICMR-Vector Control Research Centre Puducherry India,colony,01/01/2007,1,decimal,11.95130719,79.79364095,Aedes aegypti,NA,NA,NA,53,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Gunasekaran et al.  2022. Sensitivity of w Mel and w AlbB Wolbachia infections in Aedes aegypti Puducherry (Indian) strains to heat stress during larval development. Parasites and Vectors 15(1),10.1186/s13071-022-05345-0,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2022
NA,NA,infection frequency,percentage testing positive for Wolbachia infection,100,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,ICMR-Vector Control Research Centre Puducherry India,colony,01/01/2007,1,decimal,11.95130719,79.79364095,Aedes aegypti,NA,NA,NA,51,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Gunasekaran et al.  2022. Sensitivity of w Mel and w AlbB Wolbachia infections in Aedes aegypti Puducherry (Indian) strains to heat stress during larval development. Parasites and Vectors 15(1),10.1186/s13071-022-05345-0,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2022
NA,NA,infection frequency,percentage testing positive for Wolbachia infection,100,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,ICMR-Vector Control Research Centre Puducherry India,colony,01/01/2007,1,decimal,11.95130719,79.79364095,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Gunasekaran et al.  2022. Sensitivity of w Mel and w AlbB Wolbachia infections in Aedes aegypti Puducherry (Indian) strains to heat stress during larval development. Parasites and Vectors 15(1),10.1186/s13071-022-05345-0,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2022
NA,NA,infection frequency,percentage testing positive for Wolbachia infection,100,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,ICMR-Vector Control Research Centre Puducherry India,colony,01/01/2007,1,decimal,11.95130719,79.79364095,Aedes aegypti,NA,NA,NA,46,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Gunasekaran et al.  2022. Sensitivity of w Mel and w AlbB Wolbachia infections in Aedes aegypti Puducherry (Indian) strains to heat stress during larval development. Parasites and Vectors 15(1),10.1186/s13071-022-05345-0,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2022
NA,NA,infection frequency,percentage testing positive for Wolbachia infection,100,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,ICMR-Vector Control Research Centre Puducherry India,colony,01/01/2007,1,decimal,11.95130719,79.79364095,Aedes aegypti,NA,NA,NA,47,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Gunasekaran et al.  2022. Sensitivity of w Mel and w AlbB Wolbachia infections in Aedes aegypti Puducherry (Indian) strains to heat stress during larval development. Parasites and Vectors 15(1),10.1186/s13071-022-05345-0,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2022
NA,NA,infection frequency,percentage testing positive for Wolbachia infection,100,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,ICMR-Vector Control Research Centre Puducherry India,colony,01/01/2007,1,decimal,11.95130719,79.79364095,Aedes aegypti,NA,NA,NA,49,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Gunasekaran et al.  2022. Sensitivity of w Mel and w AlbB Wolbachia infections in Aedes aegypti Puducherry (Indian) strains to heat stress during larval development. Parasites and Vectors 15(1),10.1186/s13071-022-05345-0,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2022
NA,NA,infection frequency,percentage testing positive for Wolbachia infection,100,percent,NA,NA,NA,NA,8,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,ICMR-Vector Control Research Centre Puducherry India,colony,01/01/2007,1,decimal,11.95130719,79.79364095,Aedes aegypti,NA,NA,NA,50,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Gunasekaran et al.  2022. Sensitivity of w Mel and w AlbB Wolbachia infections in Aedes aegypti Puducherry (Indian) strains to heat stress during larval development. Parasites and Vectors 15(1),10.1186/s13071-022-05345-0,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/2022
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,83.542,percent,10.969,10.969,se,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,0,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. nondiapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1A,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,50.862,percent,5.367,5.367,se,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,3,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. nondiapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1A,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,14.914,percent,2.8,2.8,se,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,6,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. nondiapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1A,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,3.328,percent,2.217,2.217,se,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,18,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. nondiapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1A,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,7.146,percent,3.851,3.851,se,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,30,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. nondiapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1A,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,2.795,percent,3.618,3.618,se,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,42,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. nondiapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1A,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,0.661,percent,1.167,1.167,se,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,72,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. nondiapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1A,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,0,percent,0.512,0.512,se,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,144,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. nondiapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1A,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,91.36,percent,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,0,hours,NA,NA,NA,NA,NA,Sabah Sarawak Malaysia,colony (F6),01/01/2007,1,decimal,3,114,Aedes albopictus,NA,NA,NA,218,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. nondiapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1A,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,0,percent,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,3,hours,NA,NA,NA,NA,NA,Sabah Sarawak Malaysia,colony (F6),01/01/2007,1,decimal,3,114,Aedes albopictus,NA,NA,NA,218,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. nondiapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1A,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,0,percent,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,6,hours,NA,NA,NA,NA,NA,Sabah Sarawak Malaysia,colony (F6),01/01/2007,1,decimal,3,114,Aedes albopictus,NA,NA,NA,218,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. nondiapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1A,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,0,percent,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,18,hours,NA,NA,NA,NA,NA,Sabah Sarawak Malaysia,colony (F6),01/01/2007,1,decimal,3,114,Aedes albopictus,NA,NA,NA,218,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. nondiapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1A,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,0,percent,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,30,hours,NA,NA,NA,NA,NA,Sabah Sarawak Malaysia,colony (F6),01/01/2007,1,decimal,3,114,Aedes albopictus,NA,NA,NA,218,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. nondiapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1A,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,0,percent,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,42,hours,NA,NA,NA,NA,NA,Sabah Sarawak Malaysia,colony (F6),01/01/2007,1,decimal,3,114,Aedes albopictus,NA,NA,NA,218,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. nondiapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1A,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,0,percent,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,72,hours,NA,NA,NA,NA,NA,Sabah Sarawak Malaysia,colony (F6),01/01/2007,1,decimal,3,114,Aedes albopictus,NA,NA,NA,218,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. nondiapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1A,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,0,percent,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,144,hours,NA,NA,NA,NA,NA,Sabah Sarawak Malaysia,colony (F6),01/01/2007,1,decimal,3,114,Aedes albopictus,NA,NA,NA,218,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. nondiapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1A,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,80.453,percent,3.958,3.958,se,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,0,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. nondiapause,10,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1B,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,66.517,percent,8.498,8.498,se,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,6,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. nondiapause,10,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1B,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,48.307,percent,6.636,6.636,se,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,18,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. nondiapause,10,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1B,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,18.106,percent,7.8,7.8,se,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,30,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. nondiapause,10,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1B,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,28.999,percent,5.354,5.354,se,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,42,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. nondiapause,10,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1B,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,17.425,percent,3.492,3.492,se,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,72,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. nondiapause,10,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1B,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,4.684,percent,2.329,2.329,se,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,144,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. nondiapause,10,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1B,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,79.987,percent,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,0,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. nondiapause,10,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1B,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,0,percent,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,6,hours,NA,NA,NA,NA,NA,Sabah Sarawak Malaysia,colony (F6),01/01/2007,1,decimal,3,114,Aedes albopictus,NA,NA,NA,218,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. nondiapause,10,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1B,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,0,percent,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,18,hours,NA,NA,NA,NA,NA,Sabah Sarawak Malaysia,colony (F6),01/01/2007,1,decimal,3,114,Aedes albopictus,NA,NA,NA,218,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. nondiapause,10,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1B,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,0,percent,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,30,hours,NA,NA,NA,NA,NA,Sabah Sarawak Malaysia,colony (F6),01/01/2007,1,decimal,3,114,Aedes albopictus,NA,NA,NA,218,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. nondiapause,10,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1B,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,0,percent,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,42,hours,NA,NA,NA,NA,NA,Sabah Sarawak Malaysia,colony (F6),01/01/2007,1,decimal,3,114,Aedes albopictus,NA,NA,NA,218,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. nondiapause,10,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1B,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,0,percent,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,72,hours,NA,NA,NA,NA,NA,Sabah Sarawak Malaysia,colony (F6),01/01/2007,1,decimal,3,114,Aedes albopictus,NA,NA,NA,218,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. nondiapause,10,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1B,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,0,percent,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,144,hours,NA,NA,NA,NA,NA,Sabah Sarawak Malaysia,colony (F6),01/01/2007,1,decimal,3,114,Aedes albopictus,NA,NA,NA,218,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. nondiapause,10,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1B,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,78.589,percent,5.4,5.4,se,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,0,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. nondiapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1C,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,84.063,percent,6.57,6.57,se,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,3,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. nondiapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1C,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,80.292,percent,1.338,1.338,se,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,6,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. nondiapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1C,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,73.236,percent,9.246,9.246,se,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,18,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. nondiapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1C,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,67.032,percent,9.245,9.245,se,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,30,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. nondiapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1C,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,70.195,percent,2.433,2.433,se,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,42,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. nondiapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1C,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,63.504,percent,7.177,7.177,se,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,72,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. nondiapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1C,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,47.324,percent,8.394,8.394,se,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,144,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. nondiapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1C,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,70.803,percent,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,0,hours,NA,NA,NA,NA,NA,Sabah Sarawak Malaysia,colony (F6),01/01/2007,1,decimal,3,114,Aedes albopictus,NA,NA,NA,218,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. nondiapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1C,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,38.808,percent,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,3,hours,NA,NA,NA,NA,NA,Sabah Sarawak Malaysia,colony (F6),01/01/2007,1,decimal,3,114,Aedes albopictus,NA,NA,NA,218,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. nondiapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1C,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,3.041,percent,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,6,hours,NA,NA,NA,NA,NA,Sabah Sarawak Malaysia,colony (F6),01/01/2007,1,decimal,3,114,Aedes albopictus,NA,NA,NA,218,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. nondiapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1C,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,2.19,percent,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,18,hours,NA,NA,NA,NA,NA,Sabah Sarawak Malaysia,colony (F6),01/01/2007,1,decimal,3,114,Aedes albopictus,NA,NA,NA,218,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. nondiapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1C,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,0,percent,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,30,hours,NA,NA,NA,NA,NA,Sabah Sarawak Malaysia,colony (F6),01/01/2007,1,decimal,3,114,Aedes albopictus,NA,NA,NA,218,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. nondiapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1C,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,0,percent,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,42,hours,NA,NA,NA,NA,NA,Sabah Sarawak Malaysia,colony (F6),01/01/2007,1,decimal,3,114,Aedes albopictus,NA,NA,NA,218,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. nondiapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1C,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,0,percent,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,72,hours,NA,NA,NA,NA,NA,Sabah Sarawak Malaysia,colony (F6),01/01/2007,1,decimal,3,114,Aedes albopictus,NA,NA,NA,218,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. nondiapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1C,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,0,percent,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,144,hours,NA,NA,NA,NA,NA,Sabah Sarawak Malaysia,colony (F6),01/01/2007,1,decimal,3,114,Aedes albopictus,NA,NA,NA,218,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. nondiapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1C,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,82.176,percent,10.648,10.648,se,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,0,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg (diapause),NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. diapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,40.162,percent,7.176,7.176,se,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,3,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg (diapause),NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. diapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,23.032,percent,5.903,5.903,se,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,6,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg (diapause),NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. diapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,14.931,percent,3.009,3.009,se,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,18,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg (diapause),NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. diapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,13.426,percent,9.028,9.028,se,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,30,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg (diapause),NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. diapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,13.773,percent,5.903,5.903,se,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,42,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg (diapause),NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. diapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,2.315,percent,3.009,3.009,se,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,72,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg (diapause),NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. diapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,0,percent,0,0,se,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,144,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg (diapause),NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. diapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,85.88,percent,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,0,hours,NA,NA,NA,NA,NA,Sabah Sarawak Malaysia,colony (F6),01/01/2007,1,decimal,3,114,Aedes albopictus,NA,NA,NA,218,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg (diapause),NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. diapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,0,percent,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,3,hours,NA,NA,NA,NA,NA,Sabah Sarawak Malaysia,colony (F6),01/01/2007,1,decimal,3,114,Aedes albopictus,NA,NA,NA,218,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg (diapause),NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. diapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,0,percent,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,6,hours,NA,NA,NA,NA,NA,Sabah Sarawak Malaysia,colony (F6),01/01/2007,1,decimal,3,114,Aedes albopictus,NA,NA,NA,218,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg (diapause),NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. diapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,0,percent,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,18,hours,NA,NA,NA,NA,NA,Sabah Sarawak Malaysia,colony (F6),01/01/2007,1,decimal,3,114,Aedes albopictus,NA,NA,NA,218,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg (diapause),NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. diapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,0,percent,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,30,hours,NA,NA,NA,NA,NA,Sabah Sarawak Malaysia,colony (F6),01/01/2007,1,decimal,3,114,Aedes albopictus,NA,NA,NA,218,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg (diapause),NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. diapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,0,percent,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,42,hours,NA,NA,NA,NA,NA,Sabah Sarawak Malaysia,colony (F6),01/01/2007,1,decimal,3,114,Aedes albopictus,NA,NA,NA,218,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg (diapause),NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. diapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,0,percent,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,72,hours,NA,NA,NA,NA,NA,Sabah Sarawak Malaysia,colony (F6),01/01/2007,1,decimal,3,114,Aedes albopictus,NA,NA,NA,218,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg (diapause),NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. diapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,0,percent,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,144,hours,NA,NA,NA,NA,NA,Sabah Sarawak Malaysia,colony (F6),01/01/2007,1,decimal,3,114,Aedes albopictus,NA,NA,NA,218,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg (diapause),NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. diapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1D,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,95.386,percent,1.73,1.73,se,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,0,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg (diapause),NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,10,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1E,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,87.313,percent,5.997,5.997,se,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,3,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg (diapause),NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,10,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1E,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,70.588,percent,3.691,3.691,se,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,18,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg (diapause),NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,10,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1E,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,54.21,percent,4.614,4.614,se,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,30,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg (diapause),NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,10,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1E,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,51.903,percent,5.421,5.421,se,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,42,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg (diapause),NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,10,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1E,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,32.18,percent,13.149,13.149,se,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,72,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg (diapause),NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,10,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1E,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,16.724,percent,7.843,7.843,se,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,144,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg (diapause),NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,10,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1E,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,76.125,percent,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,0,hours,NA,NA,NA,NA,NA,Sabah Sarawak Malaysia,colony (F6),01/01/2007,1,decimal,3,114,Aedes albopictus,NA,NA,NA,218,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg (diapause),NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,10,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1E,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,0,percent,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,3,hours,NA,NA,NA,NA,NA,Sabah Sarawak Malaysia,colony (F6),01/01/2007,1,decimal,3,114,Aedes albopictus,NA,NA,NA,218,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg (diapause),NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,10,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1E,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,0,percent,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,18,hours,NA,NA,NA,NA,NA,Sabah Sarawak Malaysia,colony (F6),01/01/2007,1,decimal,3,114,Aedes albopictus,NA,NA,NA,218,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg (diapause),NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,10,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1E,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,0,percent,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,30,hours,NA,NA,NA,NA,NA,Sabah Sarawak Malaysia,colony (F6),01/01/2007,1,decimal,3,114,Aedes albopictus,NA,NA,NA,218,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg (diapause),NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,10,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1E,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,0,percent,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,42,hours,NA,NA,NA,NA,NA,Sabah Sarawak Malaysia,colony (F6),01/01/2007,1,decimal,3,114,Aedes albopictus,NA,NA,NA,218,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg (diapause),NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,10,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1E,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,0,percent,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,72,hours,NA,NA,NA,NA,NA,Sabah Sarawak Malaysia,colony (F6),01/01/2007,1,decimal,3,114,Aedes albopictus,NA,NA,NA,218,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg (diapause),NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,10,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1E,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,0,percent,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,144,hours,NA,NA,NA,NA,NA,Sabah Sarawak Malaysia,colony (F6),01/01/2007,1,decimal,3,114,Aedes albopictus,NA,NA,NA,218,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg (diapause),NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,10,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1E,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,83.641,percent,2.304,2.304,se,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,0,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg (diapause),NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1F,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,65.783,percent,5.53,5.53,se,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,3,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg (diapause),NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1F,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,68.779,percent,7.373,7.373,se,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,6,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg (diapause),NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1F,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,70.276,percent,10.369,10.369,se,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,18,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg (diapause),NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1F,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,86.06,percent,2.189,2.189,se,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,30,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg (diapause),NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1F,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,74.885,percent,3.11,3.11,se,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,42,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg (diapause),NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1F,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,77.88,percent,2.996,2.996,se,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,72,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg (diapause),NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1F,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,78.111,percent,2.073,2.073,se,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,144,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg (diapause),NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1F,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,89.516,percent,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,0,hours,NA,NA,NA,NA,NA,Sabah Sarawak Malaysia,colony (F6),01/01/2007,1,decimal,3,114,Aedes albopictus,NA,NA,NA,218,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg (diapause),NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1F,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,71.774,percent,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,3,hours,NA,NA,NA,NA,NA,Sabah Sarawak Malaysia,colony (F6),01/01/2007,1,decimal,3,114,Aedes albopictus,NA,NA,NA,218,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg (diapause),NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1F,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,61.175,percent,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,6,hours,NA,NA,NA,NA,NA,Sabah Sarawak Malaysia,colony (F6),01/01/2007,1,decimal,3,114,Aedes albopictus,NA,NA,NA,218,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg (diapause),NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1F,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,64.055,percent,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,18,hours,NA,NA,NA,NA,NA,Sabah Sarawak Malaysia,colony (F6),01/01/2007,1,decimal,3,114,Aedes albopictus,NA,NA,NA,218,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg (diapause),NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1F,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,34.217,percent,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,30,hours,NA,NA,NA,NA,NA,Sabah Sarawak Malaysia,colony (F6),01/01/2007,1,decimal,3,114,Aedes albopictus,NA,NA,NA,218,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg (diapause),NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1F,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,42.166,percent,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,42,hours,NA,NA,NA,NA,NA,Sabah Sarawak Malaysia,colony (F6),01/01/2007,1,decimal,3,114,Aedes albopictus,NA,NA,NA,218,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg (diapause),NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1F,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,32.719,percent,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,72,hours,NA,NA,NA,NA,NA,Sabah Sarawak Malaysia,colony (F6),01/01/2007,1,decimal,3,114,Aedes albopictus,NA,NA,NA,218,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg (diapause),NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1F,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean egg survival as a function of diapause and cold acclimation history,16.59,percent,NA,NA,NA,NA,1,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,144,hours,NA,NA,NA,NA,NA,Sabah Sarawak Malaysia,colony (F6),01/01/2007,1,decimal,3,114,Aedes albopictus,NA,NA,NA,218,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg (diapause),NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1F,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,hatching rate,mean percentage hatching out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,86.962,percent,9.947,9.947,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,0,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. nondiapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2A,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage surviving life stage out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,83.199,percent,11.021,11.021,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,0,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. nondiapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2A,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage surviving life stage out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,74.328,percent,11.29,11.29,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,0,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupa,NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. nondiapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2A,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,hatching rate,mean percentage hatching out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,63.575,percent,4.436,4.436,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,3,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. nondiapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2A,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage surviving life stage out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,51.075,percent,4.839,4.839,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,3,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. nondiapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2A,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage surviving life stage out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,50.538,percent,1.209,1.209,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,3,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupa,NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. nondiapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2A,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,hatching rate,mean percentage hatching out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,47.715,percent,5.376,5.376,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,6,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. nondiapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2A,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage surviving life stage out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,14.919,percent,2.957,2.957,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,6,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. nondiapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2A,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage surviving life stage out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,15.054,percent,5.645,5.645,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,6,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupa,NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. nondiapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2A,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,hatching rate,mean percentage hatching out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,54.167,percent,3.091,3.091,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,18,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. nondiapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2A,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage surviving life stage out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,3.36,percent,2.42,2.42,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,18,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. nondiapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2A,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage surviving life stage out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,0.538,percent,0.94,0.94,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,18,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupa,NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. nondiapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2A,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,hatching rate,mean percentage hatching out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,40.457,percent,23.925,23.925,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,30,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. nondiapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2A,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage surviving life stage out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,7.258,percent,3.36,3.36,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,30,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. nondiapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2A,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage surviving life stage out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,2.688,percent,0.538,0.538,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,30,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupa,NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. nondiapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2A,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,hatching rate,mean percentage hatching out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,43.414,percent,2.688,2.688,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,42,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. nondiapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2A,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage surviving life stage out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,2.957,percent,3.629,3.629,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,42,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. nondiapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2A,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage surviving life stage out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,1.21,percent,1.075,1.075,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,42,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupa,NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. nondiapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2A,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,hatching rate,mean percentage hatching out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,31.048,percent,7.393,7.393,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,72,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. nondiapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2A,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage surviving life stage out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,0.941,percent,1.344,1.344,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,72,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. nondiapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2A,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage surviving life stage out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,0.538,percent,0,0,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,72,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupa,NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. nondiapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2A,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,hatching rate,mean percentage hatching out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,16.263,percent,5.914,5.914,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,144,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. nondiapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2A,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage surviving life stage out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,0.538,percent,0,0,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,144,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. nondiapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2A,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage surviving life stage out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,0.403,percent,0,0,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,144,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupa,NA,-10,Celsius,NA,NA,NA,NA,NA,not cold acclimated. nondiapause,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2A,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,hatching rate,mean percentage hatching out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,63.151,percent,4.005,4.005,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,0,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. nondiapause,10,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2B,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage surviving life stage out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,61.015,percent,4.139,4.139,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,0,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. nondiapause,10,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2B,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage surviving life stage out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,58.478,percent,1.869,1.869,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,0,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupa,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. nondiapause,10,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2B,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,hatching rate,mean percentage hatching out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,67.824,percent,8.144,8.144,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,6,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. nondiapause,10,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2B,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage surviving life stage out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,67.023,percent,8.277,8.277,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,6,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. nondiapause,10,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2B,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage surviving life stage out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,63.818,percent,7.344,7.344,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,6,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupa,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. nondiapause,10,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2B,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,hatching rate,mean percentage hatching out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,73.164,percent,8.011,8.011,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,18,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. nondiapause,10,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2B,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage surviving life stage out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,48.999,percent,6.542,6.542,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,18,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. nondiapause,10,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2B,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage surviving life stage out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,42.991,percent,1.735,1.735,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,18,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupa,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. nondiapause,10,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2B,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,hatching rate,mean percentage hatching out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,43.124,percent,9.88,9.88,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,30,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. nondiapause,10,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2B,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage surviving life stage out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,18.291,percent,7.61,7.61,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,30,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. nondiapause,10,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2B,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage surviving life stage out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,18.291,percent,7.343,7.343,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,30,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupa,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. nondiapause,10,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2B,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,hatching rate,mean percentage hatching out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,72.497,percent,0.667,0.667,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,42,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. nondiapause,10,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2B,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage surviving life stage out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,28.972,percent,6.008,6.008,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,42,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. nondiapause,10,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2B,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage surviving life stage out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,27.236,percent,6.008,6.008,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,42,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupa,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. nondiapause,10,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2B,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,hatching rate,mean percentage hatching out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,58.077,percent,3.338,3.338,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,72,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. nondiapause,10,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2B,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage surviving life stage out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,16.956,percent,3.605,3.605,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,72,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. nondiapause,10,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2B,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage surviving life stage out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,14.953,percent,0.134,0.134,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,72,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupa,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. nondiapause,10,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2B,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,hatching rate,mean percentage hatching out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,52.336,percent,6.008,6.008,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,144,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. nondiapause,10,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2B,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage surviving life stage out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,5.073,percent,2.404,2.404,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,144,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. nondiapause,10,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2B,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage surviving life stage out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,2.27,percent,1.735,1.735,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,144,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupa,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. nondiapause,10,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2B,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,hatching rate,mean percentage hatching out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,84.797,percent,1.31,1.31,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,0,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2C,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage surviving life stage out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,83.486,percent,2.884,2.884,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,0,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2C,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage surviving life stage out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,81.127,percent,4.587,4.587,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,0,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupa,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2C,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,hatching rate,mean percentage hatching out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,66.448,percent,4.325,4.325,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,3,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2C,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage surviving life stage out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,65.662,percent,5.111,5.111,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,3,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2C,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage surviving life stage out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,62.779,percent,6.815,6.815,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,3,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupa,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2C,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,hatching rate,mean percentage hatching out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,69.987,percent,7.733,7.733,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,6,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2C,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage surviving life stage out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,69.332,percent,6.684,6.684,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,6,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2C,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage surviving life stage out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,66.055,percent,3.014,3.014,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,6,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupa,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2C,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,hatching rate,mean percentage hatching out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,67.497,percent,9.698,9.698,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,18,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2C,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage surviving life stage out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,66.317,percent,9.961,9.961,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,18,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2C,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage surviving life stage out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,63.303,percent,7.47,7.47,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,18,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupa,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2C,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,hatching rate,mean percentage hatching out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,87.68,percent,2.753,2.753,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,30,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2C,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage surviving life stage out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,86.37,percent,2.097,2.097,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,30,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2C,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage surviving life stage out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,80.865,percent,3.539,3.539,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,30,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupa,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2C,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,hatching rate,mean percentage hatching out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,76.933,percent,2.621,2.621,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,42,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2C,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage surviving life stage out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,74.312,percent,3.67,3.67,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,42,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2C,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage surviving life stage out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,73.263,percent,4.457,4.457,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,42,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupa,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2C,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,hatching rate,mean percentage hatching out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,79.423,percent,1.966,1.966,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,72,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2C,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage surviving life stage out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,77.982,percent,2.359,2.359,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,72,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2C,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage surviving life stage out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,72.608,percent,4.587,4.587,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,72,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupa,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2C,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,hatching rate,mean percentage hatching out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,82.176,percent,1.048,1.048,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,144,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2C,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage surviving life stage out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,77.982,percent,1.835,1.835,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,144,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2C,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage surviving life stage out of total number of viable eggs as a function of being chilled at minus 10 degC for various periods of time,69.725,percent,12.451,12.451,sd,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 10 degC,144,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,654,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to pupa,NA,-10,Celsius,NA,NA,NA,NA,10,cold acclimated at 10 degC. diapause,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2C,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage survival as a function of different parental adult and egg acclimation regimes after chilling at minus 10 degC for 24 h,89.045,percent,0.626,0.626,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod (light hours),NA,16,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,424,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,10,eggs cold acclimated at 10 degC. parents held at 27 deg C,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage survival as a function of different parental adult and egg acclimation regimes after chilling at minus 10 degC for 24 h,68.701,percent,3.443,3.443,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod (light hours),NA,16,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,424,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,10,eggs cold acclimated at 10 degC. parents held at 27 deg C,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage survival as a function of different parental adult and egg acclimation regimes after chilling at minus 10 degC for 24 h,92.019,percent,4.225,4.225,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod (light hours),NA,16,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,424,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,10,eggs cold acclimated at 10 degC. parents held at 21 deg C,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage survival as a function of different parental adult and egg acclimation regimes after chilling at minus 10 degC for 24 h,69.953,percent,7.981,7.981,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod (light hours),NA,16,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,424,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,10,eggs cold acclimated at 10 degC. parents held at 21 deg C,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage survival as a function of different parental adult and egg acclimation regimes after chilling at minus 10 degC for 24 h,91.236,percent,2.348,2.348,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod (light hours),NA,8,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,424,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,10,eggs cold acclimated at 10 degC. parents held at 21 deg C,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage survival as a function of different parental adult and egg acclimation regimes after chilling at minus 10 degC for 24 h,88.889,percent,2.034,2.034,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod (light hours),NA,8,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,424,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,10,eggs cold acclimated at 10 degC. parents held at 21 deg C,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage survival as a function of different parental adult and egg acclimation regimes after chilling at minus 10 degC for 24 h,82.942,percent,10.642,10.642,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod (light hours),NA,16,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,424,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,27,eggs not cold acclimated. parents held at 27 deg C,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage survival as a function of different parental adult and egg acclimation regimes after chilling at minus 10 degC for 24 h,12.676,percent,4.695,4.695,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod (light hours),NA,16,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,424,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-10,Celsius,NA,NA,NA,NA,27,eggs not cold acclimated. parents held at 27 deg C,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage survival as a function of different parental adult and egg acclimation regimes after chilling at minus 10 degC for 24 h,97.496,percent,2.035,2.035,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod (light hours),NA,8,hours,NA,NA,NA,NA,NA,Tlapacoyan Veracruz Mexico,field (F2),01/01/2007,1,decimal,19.96109659,-97.21320414,Aedes aegypti,NA,NA,NA,424,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,-10,Celsius,NA,NA,NA,NA,10,eggs cold acclimated at 10 degC. parents held at 21 deg C,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage survival as a function of different parental adult and egg acclimation regimes after chilling at minus 10 degC for 24 h,0.156,percent,0,0,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod (light hours),NA,8,hours,NA,NA,NA,NA,NA,Tlapacoyan Veracruz Mexico,field (F2),01/01/2007,1,decimal,19.96109659,-97.21320414,Aedes aegypti,NA,NA,NA,424,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,-10,Celsius,NA,NA,NA,NA,10,eggs cold acclimated at 10 degC. parents held at 21 deg C,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage surviving as a function of different cold acclimation regimes,93.862,percent,3.964,3.964,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 12 degC,0,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,115,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,NA,NA,NA,NA,NA,NA,10,additional acclimation at 0 degC for 15 days,45,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage surviving as a function of different cold acclimation regimes,93.095,percent,5.626,5.626,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 12 degC,24,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,115,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-12,Celsius,NA,NA,NA,NA,10,additional acclimation at 0 degC for 15 days,45,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,mean percentage surviving as a function of different cold acclimation regimes,60.23,percent,13.299,13.299,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 12 degC,24,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,115,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-12,Celsius,NA,NA,NA,NA,10,NA,60,NA,days,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,comparison of survivorship between laboratory and field cold acclimation when eggs were chilled at minus 12 degC for various periods of time,97.68,percent,0.733,0.733,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 12 degC,0,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,450,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-12,Celsius,NA,NA,NA,NA,10,NA,0,NA,hours,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,comparison of survivorship between laboratory and field cold acclimation when Ae. albopictus eggs were chilled at minus 12 degC for various periods of time,84.982,percent,6.471,6.471,sd,NA,NA,terrestrial,field,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 12 degC,0,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,450,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-12,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,comparison of survivorship between laboratory and field cold acclimation when Ae. albopictus eggs were chilled at minus 12 degC for various periods of time,59.758,percent,10.457,10.457,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 12 degC,24,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,450,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-12,Celsius,NA,NA,NA,NA,10,NA,24,NA,hours,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,comparison of survivorship between laboratory and field cold acclimation when Ae. albopictus eggs were chilled at minus 12 degC for various periods of time,63.432,percent,9.61,9.61,sd,NA,NA,terrestrial,field,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 12 degC,24,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,450,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-12,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,comparison of survivorship between laboratory and field cold acclimation when Ae. albopictus eggs were chilled at minus 12 degC for various periods of time,45.555,percent,14.909,14.909,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 12 degC,48,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,450,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-12,Celsius,NA,NA,NA,NA,10,NA,48,NA,hours,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,comparison of survivorship between laboratory and field cold acclimation when Ae. albopictus eggs were chilled at minus 12 degC for various periods of time,52.763,percent,13.99,13.99,sd,NA,NA,terrestrial,field,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 12 degC,48,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,450,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-12,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,comparison of survivorship between laboratory and field cold acclimation when Ae. albopictus eggs were chilled at minus 12 degC for various periods of time,45.414,percent,4.381,4.381,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 12 degC,72,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,450,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-12,Celsius,NA,NA,NA,NA,10,NA,72,NA,hours,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,comparison of survivorship between laboratory and field cold acclimation when Ae. albopictus eggs were chilled at minus 12 degC for various periods of time,51.137,percent,5.512,5.512,sd,NA,NA,terrestrial,field,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 12 degC,72,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,450,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-12,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,comparison of survivorship between laboratory and field cold acclimation when Ae. albopictus eggs were chilled at minus 12 degC for various periods of time,18.563,percent,1.272,1.272,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 12 degC,144,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,450,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-12,Celsius,NA,NA,NA,NA,10,NA,144,NA,hours,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,comparison of survivorship between laboratory and field cold acclimation when Ae. albopictus eggs were chilled at minus 12 degC for various periods of time,19.976,percent,2.615,2.615,sd,NA,NA,terrestrial,field,NA,NA,NA,NA,NA,NA,NA,exposure time,hours of exposure to minus 12 degC,144,hours,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,450,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,-12,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,NA,TRUE,01/01/1994
NA,NA,survival,egg survivorship of different Ae. albopictus strains,84.056,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Cariacica City Espirito Santo Brazil,field (F5),01/01/2007,1,decimal,-20.2667,-40.4184,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 6,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,interactor1temp is the temperature that eggs were acclimated at for 60 days prior to the experiment,TRUE,01/01/1994
NA,NA,survival,egg survivorship of different Ae. albopictus strains,79.72,percent,1.958,1.958,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,NA,-3,degrees Celsius,NA,NA,NA,NA,NA,Cariacica City Espirito Santo Brazil,field (F5),01/01/2007,1,decimal,-20.2667,-40.4184,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 6,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,interactor1temp is the temperature that eggs were acclimated at for 60 days prior to the experiment,TRUE,01/01/1994
NA,NA,survival,egg survivorship of different Ae. albopictus strains,1.119,percent,1.259,1.259,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,NA,-8,degrees Celsius,NA,NA,NA,NA,NA,Cariacica City Espirito Santo Brazil,field (F5),01/01/2007,1,decimal,-20.2667,-40.4184,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 6,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,interactor1temp is the temperature that eggs were acclimated at for 60 days prior to the experiment,TRUE,01/01/1994
NA,NA,survival,egg survivorship of different Ae. albopictus strains,89.93,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Santa Tereza Espirito Santo Brazil,field (F5),01/01/2007,1,decimal,-19.9358,-40.6,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 6,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,interactor1temp is the temperature that eggs were acclimated at for 60 days prior to the experiment,TRUE,01/01/1994
NA,NA,survival,egg survivorship of different Ae. albopictus strains,97.343,percent,0.14,0.14,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,NA,-3,degrees Celsius,NA,NA,NA,NA,NA,Santa Tereza Espirito Santo Brazil,field (F5),01/01/2007,1,decimal,-19.9358,-40.6,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 6,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,interactor1temp is the temperature that eggs were acclimated at for 60 days prior to the experiment,TRUE,01/01/1994
NA,NA,survival,egg survivorship of different Ae. albopictus strains,0.28,percent,0,0,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,NA,-8,degrees Celsius,NA,NA,NA,NA,NA,Santa Tereza Espirito Santo Brazil,field (F5),01/01/2007,1,decimal,-19.9358,-40.6,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 6,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,interactor1temp is the temperature that eggs were acclimated at for 60 days prior to the experiment,TRUE,01/01/1994
NA,NA,survival,egg survivorship of different Ae. albopictus strains,84.895,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Sabah Sarawak Malaysia,colony (F6),01/01/2007,1,decimal,3,114,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 6,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,interactor1temp is the temperature that eggs were acclimated at for 60 days prior to the experiment,TRUE,01/01/1994
NA,NA,survival,egg survivorship of different Ae. albopictus strains,70.49,percent,5.034,5.034,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,NA,-3,degrees Celsius,NA,NA,NA,NA,NA,Sabah Sarawak Malaysia,colony (F6),01/01/2007,1,decimal,3,114,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 6,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,interactor1temp is the temperature that eggs were acclimated at for 60 days prior to the experiment,TRUE,01/01/1994
NA,NA,survival,egg survivorship of different Ae. albopictus strains,0.14,percent,0,0,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,NA,-8,degrees Celsius,NA,NA,NA,NA,NA,Sabah Sarawak Malaysia,colony (F6),01/01/2007,1,decimal,3,114,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 6,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,interactor1temp is the temperature that eggs were acclimated at for 60 days prior to the experiment,TRUE,01/01/1994
NA,NA,survival,egg survivorship of different Ae. albopictus strains,96.783,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Polk County FL,field (F2),01/01/2007,1,decimal,27.9667,-81.7,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 6,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,interactor1temp is the temperature that eggs were acclimated at for 60 days prior to the experiment,TRUE,01/01/1994
NA,NA,survival,egg survivorship of different Ae. albopictus strains,69.51,percent,9.511,9.511,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,NA,-3,degrees Celsius,NA,NA,NA,NA,NA,Polk County FL,field (F2),01/01/2007,1,decimal,27.9667,-81.7,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 6,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,interactor1temp is the temperature that eggs were acclimated at for 60 days prior to the experiment,TRUE,01/01/1994
NA,NA,survival,egg survivorship of different Ae. albopictus strains,26.853,percent,2.518,2.518,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,NA,-8,degrees Celsius,NA,NA,NA,NA,NA,Polk County FL,field (F2),01/01/2007,1,decimal,27.9667,-81.7,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 6,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,interactor1temp is the temperature that eggs were acclimated at for 60 days prior to the experiment,TRUE,01/01/1994
NA,NA,survival,egg survivorship of different Ae. albopictus strains,81.678,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 6,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,interactor1temp is the temperature that eggs were acclimated at for 60 days prior to the experiment,TRUE,01/01/1994
NA,NA,survival,egg survivorship of different Ae. albopictus strains,84.615,percent,8.252,8.252,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,NA,-3,degrees Celsius,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 6,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,interactor1temp is the temperature that eggs were acclimated at for 60 days prior to the experiment,TRUE,01/01/1994
NA,NA,survival,egg survivorship of different Ae. albopictus strains,84.056,percent,1.259,1.259,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,NA,-8,degrees Celsius,NA,NA,NA,NA,NA,Indianapolis Indiana USA,colony (F5),01/01/2007,1,decimal,39.76647434,-86.15473456,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 6,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,interactor1temp is the temperature that eggs were acclimated at for 60 days prior to the experiment,TRUE,01/01/1994
NA,NA,survival,egg survivorship of different Ae. albopictus strains,95.105,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,St. Joseph County IN,colony (F30+),01/01/2007,1,decimal,41.62,-86.29,Aedes triseriatus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,egg,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 6,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,interactor1temp is the temperature that eggs were acclimated at for 60 days prior to the experiment,TRUE,01/01/1994
NA,NA,survival,egg survivorship of different Ae. albopictus strains,98.182,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,NA,-3,degrees Celsius,NA,NA,NA,NA,NA,St. Joseph County IN,colony (F30+),01/01/2007,1,decimal,41.62,-86.29,Aedes triseriatus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,egg,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 6,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,interactor1temp is the temperature that eggs were acclimated at for 60 days prior to the experiment,TRUE,01/01/1994
NA,NA,survival,egg survivorship of different Ae. albopictus strains,98.182,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,NA,-8,degrees Celsius,NA,NA,NA,NA,NA,St. Joseph County IN,colony (F30+),01/01/2007,1,decimal,41.62,-86.29,Aedes triseriatus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,triseriatus,egg,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 6,Hanson and Craig Jr. 1994. Cold acclimation diapause and geographic origin affect cold hardiness in eggs of Aedes albopictus (Diptera: Culicidae). Journal of Medical Entomology 31(2),10.1093/jmedent/31.2.192,NA,NA,Margo Blaha,margo.blaha@unitn.it,interactor1temp is the temperature that eggs were acclimated at for 60 days prior to the experiment,TRUE,01/01/1994
NA,PDM01,development time,days to pupation as a function of food quantity and temperature,10.77083333,days,9.833333333,11.70833333,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,16.7,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,male,22.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM01,development time,days to pupation as a function of food quantity and temperature,11.47916667,days,9.625,13.33333333,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,33.3,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,male,22.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM01,development time,days to pupation as a function of food quantity and temperature,11.27083333,days,10.58333333,11.95833333,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,66.7,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,male,22.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM01,development time,days to pupation as a function of food quantity and temperature,10.20833333,days,9.8125,10.60416667,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,133.3,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,male,22.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM01,development time,days to pupation as a function of food quantity and temperature,9.041666667,days,8.458333333,9.625,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,266.7,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,male,22.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM01,development time,days to pupation as a function of food quantity and temperature,11.5,days,10.33333333,12.66666667,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,16.7,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,male,28.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM01,development time,days to pupation as a function of food quantity and temperature,9.5,days,8.520833333,10.47916667,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,33.3,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,male,28.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM01,development time,days to pupation as a function of food quantity and temperature,7.6875,days,7.020833333,8.354166667,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,66.7,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,male,28.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM01,development time,days to pupation as a function of food quantity and temperature,6.458333333,days,5.958333333,6.958333333,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,133.3,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,male,28.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM01,development time,days to pupation as a function of food quantity and temperature,6.708333333,days,5.604166667,7.8125,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,266.7,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,male,28.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM01,development time,days to pupation as a function of food quantity and temperature,14,days,10.58333333,17.41666667,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,16.7,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,female,22.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM01,development time,days to pupation as a function of food quantity and temperature,13.70833333,days,11.58333333,15.83333333,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,33.3,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,female,22.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM01,development time,days to pupation as a function of food quantity and temperature,12.3125,days,11.08333333,13.54166667,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,66.7,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,female,22.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM01,development time,days to pupation as a function of food quantity and temperature,11.25,days,10.75,11.75,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,133.3,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,female,22.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM01,development time,days to pupation as a function of food quantity and temperature,9.041666667,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,266.7,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,female,22.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM01,development time,days to pupation as a function of food quantity and temperature,12.72916667,days,11.54166667,13.91666667,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,16.7,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,female,28.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM01,development time,days to pupation as a function of food quantity and temperature,10.33333333,days,9.395833333,11.27083333,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,33.3,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,female,28.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM01,development time,days to pupation as a function of food quantity and temperature,7.4375,days,6.854166667,8.020833333,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,66.7,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,female,28.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM01,development time,days to pupation as a function of food quantity and temperature,7.1875,days,5.875,8.5,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,133.3,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,female,28.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM01,development time,days to pupation as a function of food quantity and temperature,7,days,6.25,7.75,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,266.7,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,female,28.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM01,development time,days to pupation as a function of food quantity and temperature,25.00947226,days,22.10013532,27.9188092,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,4,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,male,22.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM01,development time,days to pupation as a function of food quantity and temperature,19.46143437,days,17.60081191,21.32205683,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,10,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,male,22.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM01,development time,days to pupation as a function of food quantity and temperature,19.08930988,days,16.38294993,21.79566982,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,20,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,male,22.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM01,development time,days to pupation as a function of food quantity and temperature,18.58186739,days,14.75913396,22.40460081,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,30,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,male,22.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM01,development time,days to pupation as a function of food quantity and temperature,21.38971583,days,20.37483085,22.40460081,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,4,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,male,28.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM01,development time,days to pupation as a function of food quantity and temperature,16.41677943,days,14.48849797,18.34506089,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,10,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,male,28.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM01,development time,days to pupation as a function of food quantity and temperature,21.79566982,days,13.37212449,30.21921516,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,20,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,male,28.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM01,development time,days to pupation as a function of food quantity and temperature,15.84167794,days,13.91339648,17.7699594,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,30,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,male,28.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM01,development time,days to pupation as a function of food quantity and temperature,26.73477673,days,21.05142084,32.41813261,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,4,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,female,22.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM01,development time,days to pupation as a function of food quantity and temperature,21.62652233,days,18.64952639,24.60351827,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,10,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,female,22.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM01,development time,days to pupation as a function of food quantity and temperature,19.86738836,days,16.01082544,23.72395129,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,20,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,female,22.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM01,development time,days to pupation as a function of food quantity and temperature,15.09742896,days,8.466847091,21.72801083,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,30,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,female,22.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM01,development time,days to pupation as a function of food quantity and temperature,21.72801083,days,19.66441137,23.79161028,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,4,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,female,28.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM01,development time,days to pupation as a function of food quantity and temperature,19.96887686,days,13.1691475,26.76860622,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,10,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,female,28.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM01,development time,days to pupation as a function of food quantity and temperature,15.60487145,days,7.113667118,24.09607578,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,20,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,female,28.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM01,development time,days to pupation as a function of food quantity and temperature,17.43166441,days,10.93640054,23.92692828,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,30,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,female,28.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM02,body size,mean wing area as a function of larval food quanty and temperature,1.755158184,mm2,1.682943604,1.827372765,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,4,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM02,body size,mean wing area as a function of larval food quanty and temperature,1.870701513,mm2,1.827372765,1.914030261,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,10,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM02,body size,mean wing area as a function of larval food quanty and temperature,1.889270977,mm2,1.784044017,1.994497937,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,20,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM02,body size,mean wing area as a function of larval food quanty and temperature,1.751031637,mm2,1.724209078,1.777854195,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,30,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM02,body size,mean wing area as a function of larval food quanty and temperature,1.478679505,mm2,1.408528198,1.548830812,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,4,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM02,body size,mean wing area as a function of larval food quanty and temperature,1.47042641,mm2,1.455983494,1.484869326,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,10,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM02,body size,mean wing area as a function of larval food quanty and temperature,1.509628611,mm2,1.373452545,1.645804677,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,20,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM02,body size,mean wing area as a function of larval food quanty and temperature,1.418844567,mm2,1.268225585,1.569463549,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,30,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM02,body size,mean wing area as a function of larval food quanty and temperature,2.010548523,mm2,1.962025316,2.05907173,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,16.7,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM02,body size,mean wing area as a function of larval food quanty and temperature,1.896624473,mm2,1.85021097,1.943037975,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,33.3,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM02,body size,mean wing area as a function of larval food quanty and temperature,2.071729958,mm2,1.989451477,2.154008439,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,66.7,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM02,body size,mean wing area as a function of larval food quanty and temperature,2.200421941,mm2,2.137130802,2.26371308,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,133.3,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM02,body size,mean wing area as a function of larval food quanty and temperature,2.257383966,mm2,2.130801688,2.383966245,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,266.7,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM02,body size,mean wing area as a function of larval food quanty and temperature,1.628691983,mm2,1.611814346,1.64556962,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,16.7,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM02,body size,mean wing area as a function of larval food quanty and temperature,1.64556962,mm2,1.611814346,1.679324895,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,33.3,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM02,body size,mean wing area as a function of larval food quanty and temperature,1.727848101,mm2,1.691983122,1.76371308,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,66.7,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM02,body size,mean wing area as a function of larval food quanty and temperature,1.860759494,mm2,1.835443038,1.886075949,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,133.3,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM02,body size,mean wing area as a function of larval food quanty and temperature,1.845991561,mm2,1.810126582,1.88185654,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,266.7,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM02,body size,mean wing area as a function of larval food quanty and temperature,0.979946524,mm2,0.949197861,1.010695187,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,4,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,22.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM02,body size,mean wing area as a function of larval food quanty and temperature,0.979946524,mm2,0.953208556,1.006684492,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,10,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,22.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM02,body size,mean wing area as a function of larval food quanty and temperature,1.048128342,mm2,1,1.096256684,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,20,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,22.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM02,body size,mean wing area as a function of larval food quanty and temperature,1.00802139,mm2,0.975935829,1.040106952,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,30,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,22.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM02,body size,mean wing area as a function of larval food quanty and temperature,0.874331551,mm2,0.82887700499999994,0.919786096,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,4,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,28.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM02,body size,mean wing area as a function of larval food quanty and temperature,0.799465241,mm2,0.778074866,0.820855615,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,10,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,28.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM02,body size,mean wing area as a function of larval food quanty and temperature,0.792780749,mm2,0.735294118,0.85026738,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,20,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,28.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM02,body size,mean wing area as a function of larval food quanty and temperature,0.826203209,mm2,0.776737968,0.875668449,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,30,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,28.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM02,body size,mean wing area as a function of larval food quanty and temperature,1.053595658,mm2,1.025101764,1.082089552,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,16.7,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,22.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4b,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM02,body size,mean wing area as a function of larval food quanty and temperature,1.041383989,mm2,1.006105834,1.076662144,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,33.3,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,22.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4b,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM02,body size,mean wing area as a function of larval food quanty and temperature,1.075305292,mm2,1.02917232,1.121438263,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,66.7,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,22.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4b,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM02,body size,mean wing area as a function of larval food quanty and temperature,1.110583446,mm2,1.091587517,1.129579376,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,133.3,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,22.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4b,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM02,body size,mean wing area as a function of larval food quanty and temperature,1.228629579,mm2,1.213704206,1.243554953,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,266.7,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,22.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4b,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM02,body size,mean wing area as a function of larval food quanty and temperature,0.87449118,mm2,0.859565807,0.889416554,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,16.7,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,28.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4b,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM02,body size,mean wing area as a function of larval food quanty and temperature,0.890773406,mm2,0.863636364,0.917910448,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,33.3,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,28.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4b,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM02,body size,mean wing area as a function of larval food quanty and temperature,0.935549525,mm2,0.902985075,0.968113976,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,66.7,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,28.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4b,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM02,body size,mean wing area as a function of larval food quanty and temperature,0.949118046,mm2,0.9192673,0.978968792,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,133.3,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,28.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4b,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,PDM02,body size,mean wing area as a function of larval food quanty and temperature,0.976255088,mm2,0.936906377,1.015603799,95% CI,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food quantity,quantity of detritus mixture provided per rearing cup per day,266.7,mg/day,NA,NA,NA,NA,NA,Barranquilla Colombia,field,NA,NA,decimal,10.983333,-74.801944,Aedes aegypti,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,28.2,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4b,Padmanabha et al. 2011. Food Availability Alters the Effects of Larval Temperature on Aedes aegypti Growth. Journal of Medical Entomology 48:5,10.1603/ME11020,NA,NA,Daniele Da Re,dare.daniele@gmail.com,generation F2 used for the experiments,TRUE,01/01/2011
NA,NA,hatching rate,replicate-level hatching rate of non diapause eggs as a function of temperature and daylight hours,66,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,177,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,hatching rate,replicate-level hatching rate of non diapause eggs as a function of temperature and daylight hours,35,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,177,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,hatching rate,replicate-level hatching rate of non diapause eggs as a function of temperature and daylight hours,52,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,177,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,hatching rate,replicate-level hatching rate of non diapause eggs as a function of temperature and daylight hours,47,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,111,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,hatching rate,replicate-level hatching rate of non diapause eggs as a function of temperature and daylight hours,39,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,111,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,hatching rate,replicate-level hatching rate of non diapause eggs as a function of temperature and daylight hours,28,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,111,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,hatching rate,replicate-level hatching rate of diapause eggs as a function of temperature and daylight hours,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,81,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,hatching rate,replicate-level hatching rate of diapause eggs as a function of temperature and daylight hours,3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,81,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,hatching rate,replicate-level hatching rate of diapause eggs as a function of temperature and daylight hours,1,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,81,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,165.26,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,166.61,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,151.32,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,148.73,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,156.54,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,172.76,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,152.97,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,154.03,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,150.87,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,152.05,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,173.76,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,154.25,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,150.96,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,151.26,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,152.89,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,155.26,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,164.42,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,164.13,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,162.95,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,148.91,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,160.3,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,144.84,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,146.03,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,150.7,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,150.78,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,159.5,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,142.77,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,150.16,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,146.85,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,169.28,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,171.81,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,152.63,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,171.3,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,160.07,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,154.48,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,153.2,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,150.38,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,151.84,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,155.2,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,148.81,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,150.91,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,148.84,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,162.33,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,149.76,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,149.14,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,142.74,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,152.67,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,147.45,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,146.49,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,148.03,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,153.6,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,152.13,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,162.23,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,172.32,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,163.44,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,173.11,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,173.16,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,170.49,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,151.81,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,142.67,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,147.95,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,148.07,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,143.4,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,143.74,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,145.02,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,158.85,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,156.48,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,156.67,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,161.77,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,162.31,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,149.58,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,159.82,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,160.32,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,157.77,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,155.26,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,169.96,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,162.97,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,149.81,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,143.43,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,163.21,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,153.2,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,148.39,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,156.48,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,160.86,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,168.22,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,159.57,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,174.43,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,158.55,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,164.04,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,157.88,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,159.49,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,164.94,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,142.72,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,162.49,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,154.67,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,153.03,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,158.34,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,147.24,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,150.87,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,143.26,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,162.34,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,162.22,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,179.32,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,153.65,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,149.69,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,158.85,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,155.26,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,161.77,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,164.4,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,145.78,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,161.49,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,172.49,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,170.01,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,165.24,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,166.41,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,166.34,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,158.34,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,151.95,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,159.92,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,158.12,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,167.01,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,167.71,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,161.26,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,141.3,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,154.64,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,145.78,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,138.31,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,162.47,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,159.08,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,155.89,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,155.28,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,163.21,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,159.42,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,152.69,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,163.47,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,151.39,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,166.13,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,154.1,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,158.91,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,157.11,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,163.26,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,152.05,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,167.27,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,150.12,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,164.71,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,149.69,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,158.15,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,164.45,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,160.8,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,151.07,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,163.98,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,171.5,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,166.18,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,156.8,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,150.66,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,166.41,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,155.55,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,161.37,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,152.67,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,159.83,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,155.06,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,155.11,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,158.39,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,154.8,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,153.92,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,167.29,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,155.37,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,158.78,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,162.01,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,160.16,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,164.94,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,169.78,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,163.02,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,149.34,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,151.3,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,157.46,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,158.39,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,154.86,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,154.87,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,157.21,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,160.3,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,160.46,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,158.61,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,160.15,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,159.83,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,163.98,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,157.79,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,155.87,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,157.19,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,166.07,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,161.12,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,157.88,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,147.51,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,152.72,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,165.24,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,158.89,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,162.31,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,157.44,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,159.5,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,155.98,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,157.13,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,154.53,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,154.59,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,152.13,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,156.2,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,151.48,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,140.85,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,164.19,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,150.26,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,158.26,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,164.08,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,157.77,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,160.46,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,159.75,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,154.3,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,163.47,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,152.86,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,152.55,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,153.24,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,163.26,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,162.22,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,155.92,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,148.79,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,154.59,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,156.66,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,164.63,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,172.31,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,158.78,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,154.8,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,152.01,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,156.78,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,159.75,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,154.59,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,164.45,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,150.72,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,166.96,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,161.34,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,161.53,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,149.12,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,173.97,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,171.03,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,163.47,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,157.77,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,144.82,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,152.63,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,158.06,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,150.78,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,165.19,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,156.42,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,147.79,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,156.04,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,146.38,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,157.02,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,164.55,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,159.27,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,164.63,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,156.33,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,163.83,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,171.93,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,151.04,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,152.86,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,155.11,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,168.35,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,164.31,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,160.16,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,159.32,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,150,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,159.81,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,145.38,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,150.7,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,158.07,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,162.01,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,159.89,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,156.63,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,160.46,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,161.37,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,154.3,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,153.94,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,160.46,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,163.9,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,155.11,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,163.07,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,154.57,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,161.53,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg width as a function of temperature and daylight hours,161.61,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,155.53,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,159.21,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,151.36,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,167.47,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,153.65,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,159.5,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,154.03,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,160.36,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,165.37,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,160.3,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,168,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,167.67,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,161.49,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,158.5,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,149.73,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,153.12,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,169.76,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,146.84,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,161.21,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,167.45,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,161.56,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,162.33,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,159.07,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,171.18,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,165.89,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,166.07,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,147.53,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,153.99,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,153.41,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,165.11,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,161.26,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,165.89,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,162.77,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,159.51,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,152.63,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,153.96,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,155.37,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,167.06,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,153.54,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,153.96,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,158.55,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,170.72,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,166.1,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,158.12,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,156.8,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,156.78,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,158.4,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,151.84,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,154.59,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,157.77,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,157.88,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,156.88,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,153.86,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,152.67,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,157.2,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,169.76,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,157.58,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,157.36,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,156.22,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,154.3,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,154.59,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,166.78,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,150.12,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,153.03,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,151.04,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,157.46,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,155.22,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,165.61,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,166.18,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,156.48,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,156.44,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,159.57,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,157.21,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,156.42,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,156.64,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,165.89,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,157.19,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,154.3,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,170.55,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,159.07,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,165.3,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,164.94,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,157.05,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,160.67,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,157.05,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,153.24,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,156.67,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,161.18,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,160.32,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,159.13,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,157.2,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,155.66,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,163.12,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,164.3,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,161.21,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,161.26,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,168.86,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,166.5,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,160.86,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,162.83,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,160.07,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,163.15,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,163.26,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,162.01,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,166.18,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,158.15,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,163.15,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,158.65,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,164.72,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,156.37,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,168.05,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,161,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,158.78,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,162.49,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,161.02,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,160.73,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,163.69,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,160.63,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,163.85,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,154.03,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,160.46,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,161.79,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,160.72,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,159.86,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,163.3,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,162.61,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,165.84,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,163.36,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,160.3,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,166.96,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,167.84,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,160.91,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,163.61,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,160.32,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,161.43,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,160.95,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,165.66,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,160.56,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,163.44,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,160.32,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,159.42,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,166.02,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,165.09,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,168,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,163.34,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,164,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,166.61,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,165.73,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,163.34,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,164.08,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,163.56,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,162.41,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,161.16,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,160.97,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,165.65,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,163.15,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,164.45,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,167.11,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,156.47,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,161.45,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,166.59,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,162.61,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,165.26,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,154.74,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,164.46,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,160.73,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,162.87,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,155.95,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,159.97,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,161.21,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,165.26,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,161.59,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,166.51,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,166.86,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,164.43,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,160.56,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,160.3,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,168.45,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,162.19,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,158.31,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,168.81,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,169.59,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,162.76,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,161.83,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,165,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,171.66,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,157.36,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,166.2,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,158.07,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg width as a function of temperature and daylight hours,163.02,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,580.58,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,564.39,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,513.53,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,529.91,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,566.93,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,561.81,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,516.28,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,559.45,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,552.41,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,551.66,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,577.3,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,527.82,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,543.88,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,513.64,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,521.28,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,531.19,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,576.15,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,540.69,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,569.47,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,493.37,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,511.87,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,502.53,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,511.06,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,549.17,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,574.45,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,530.06,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,518.05,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,528.84,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,547.15,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,582.27,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,586.24,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,566.28,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,588.08,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,564.19,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,544.21,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,542.24,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,574.19,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,541.63,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,541.87,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,547.24,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,561.07,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,555.28,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,573.23,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,550.53,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,553.77,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,487.79,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,541.54,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,524.83,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,513.19,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,516.33,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,534.7,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,562.78,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,543.04,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,577.22,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,570.38,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,586.78,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,573.48,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,590.6,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,511.18,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,520.04,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,497.89,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,531.87,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,537.74,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,542.61,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,513.35,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,515.18,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,528.32,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,495.64,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,540.22,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,511.06,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,497.68,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,521.54,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,532.36,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,516.72,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,534.47,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,575.46,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,542.05,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,558.3,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,520.07,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,497.91,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,504.4,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,526.9,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,549.51,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,489.02,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,523.62,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,524.3,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,588.55,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,536.77,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,512.08,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,530.2,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,536.95,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,565.91,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,494.73,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,540.87,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,556.59,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,566.92,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,556.36,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,494.93,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,535.4,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,511.47,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,581.87,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,561.29,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,546.07,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,532.17,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,479.63,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,566.2,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,531.19,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,559.06,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,532.6,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,481.21,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,495.86,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,548.88,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,556.92,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,490.79,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,536.14,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,544.57,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,551.6,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,533.25,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,534.92,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,548.93,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,535.95,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,528.8,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,534.31,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,473.81,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,505.36,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,472.03,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,469.04,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,505.25,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,560.04,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,542.59,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,518.3,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,557.25,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,557.98,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,549.87,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,556.75,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,572.81,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,536.73,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,531.27,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,542.79,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,526.15,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,445.56,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,474.1,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,522.44,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,501.96,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,563.15,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,504.22,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,544.82,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,511.96,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,550.29,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,484.72,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,553.51,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,548.6,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,522.95,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,553.82,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,502.92,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,554.77,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,531.74,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,557.87,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,575.89,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,561.81,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,553.89,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,543.74,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,561.46,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,522.25,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,543.01,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,561.05,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,556.54,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,546.5,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,541.28,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,539.92,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,586.98,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,576.27,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,560.47,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,517.25,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,534.71,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,532.65,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,556.82,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,561.04,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,561.49,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,552.07,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,560.1,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,570.16,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,569.68,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,558.92,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,539.34,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,551.44,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,556.7,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,558.92,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,562.46,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,569.72,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,557.92,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,560.38,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,534.31,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,560.19,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,557.92,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,544.25,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,580.38,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,551.6,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,563.27,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,536.09,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,530.34,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,550.33,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,548.17,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,528.45,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,561.86,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,562.99,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,523.85,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,579.69,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,502.27,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,531.27,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,567.83,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,555.4,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,581.58,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,533.91,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,569.04,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,560.73,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,563.75,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,527.62,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,549.17,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,585.39,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,601.95,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,526.39,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,537.25,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,518.34,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,558.49,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,556.34,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,596.52,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,556.53,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,562.72,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,526.02,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,557.13,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,566.53,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,543.17,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,569,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,570.54,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,577.56,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,557.26,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,579.2,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,488.63,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,584.81,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,588.23,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,591.92,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,561.83,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,509.96,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,572.18,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,550.06,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,546.86,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,589.78,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,530.99,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,553.35,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,553.06,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,477.54,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,546.83,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,536.44,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,534.23,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,529.34,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,543.14,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,577.26,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,561.6,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,520.2,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,504.94,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,568.04,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,578.82,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,550.61,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,550.01,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,542.22,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,530.38,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,539.78,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,533.52,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,535.54,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,527.1,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,537.25,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,521.42,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,537.69,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,561.38,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,555.26,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,553.53,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,509.13,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,578.79,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,553.61,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,518.06,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,528.24,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,536.61,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,542.85,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual non diapause egg length as a function of temperature and daylight hours,548.31,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,540.19,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,552.33,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,532.97,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,551.67,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,567.83,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,548.5,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,539.56,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,523.61,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,525.16,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,569.17,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,525.1,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,543.43,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,544.44,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,559.88,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,519.33,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,545.26,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,567.83,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,513.36,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,509.64,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,538.83,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,519.12,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,534.31,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,530.64,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,536.16,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,523.51,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,500.6,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,515.96,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,541.37,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,552.6,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,530.15,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,508.01,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,541.11,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,522.53,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,552.52,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,525.6,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,550.72,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,515.27,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,519.17,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,543.29,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,551.15,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,555.3,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,531.57,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,534.98,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,534.35,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,514.76,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,545.99,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,528.16,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,553.89,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,551.62,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,540.43,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,518.95,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,549.93,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,537.6,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,505.69,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,529.68,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,552.73,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,548.02,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,544.17,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,537.11,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,554.16,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,535.79,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,542.66,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,522.36,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,550.26,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,514.21,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,527.07,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,516.02,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,518.28,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,526.77,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,550.19,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,558.84,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,555.22,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,531.08,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,516,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,551.44,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,529.83,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,543.9,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,539.52,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,551.3,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,508.8,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,478.79,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,531.23,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,539.81,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,549.2,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,515.88,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,521.23,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,537.06,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,509.93,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,528.57,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,526.67,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,528.46,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,539.89,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,537.33,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,548.02,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,533.45,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,557.69,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,498.61,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,526.64,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,501.51,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,519.55,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,509.87,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,514.38,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,496.28,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,508.08,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,504.55,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,516.65,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,531.72,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,489.61,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,533.36,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,517.59,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,519.35,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,524.72,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,516.12,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,514.84,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,492.34,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,535.09,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,535.12,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,526.19,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,523.51,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,507.73,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,544.67,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,504.29,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,518.95,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,515.73,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,555.02,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,487.39,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,571.75,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,528.19,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,516.59,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,561.19,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,571.52,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,545.07,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,526.64,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,507.41,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,502.18,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,516.68,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,525.34,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,530.13,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,494.36,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,525.53,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,527.55,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,523.64,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,528.46,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,524.46,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,559.91,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,497.14,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,551.14,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,546.81,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,510.55,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,506.55,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,543.62,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,536.48,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,545.07,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,548.96,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,553.63,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,530.45,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,571.7,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,527.11,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,498.07,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,535.4,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,508.93,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,530.1,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,564.03,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,511.14,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,518,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,515.92,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,528.84,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,480.41,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,520.99,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,516.38,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,512.55,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,513.97,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,509.91,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,530.26,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,548.34,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,508.43,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,541.21,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,538.4,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,525.6,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,504.58,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,570.68,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,565.84,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,556.97,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,513.65,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,515.63,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,571.13,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,526.45,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,530.94,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,522.28,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,egg size,individual diapause egg length as a function of temperature and daylight hours,537.28,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,egg,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-26.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),0.23,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-7.33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),49.69,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-1.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),64.15,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),78.03,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),31.93,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),78.85,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),87,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),27.59,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),53.27,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),99.86,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),70.82,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),90.76,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),99.57,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),0.98,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-59.48,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-50.59,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),99.42,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),8.01,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),84.84,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),92.55,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-55.75,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),38.54,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),19.4,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),61.95,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-83.37,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),6.63,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-80.66,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-76.27,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-37.92,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),99.74,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),65.25,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-95.36,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),42.66,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-67.68,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),16.97,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-84.02,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-79.09,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-58.78,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),68.56,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-66.96,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),16.38,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),72.4,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),66.55,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),65.52,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-2.78,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),29.96,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),19.21,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),93.09,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),97.54,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-18.09,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-81.37,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),99.22,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-53.09,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-70.44,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-84.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),99.36,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-14.86,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-84.21,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-99.62,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-99.03,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-83.68,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-58.91,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-99.83,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-81.92,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-66.14,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),99.52,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),96.12,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),84.28,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),98.98,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-47.96,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),97.73,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),88.64,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),88.31,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),82.48,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),94.22,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),46.1,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-2.32,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),64.33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),5.81,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),19.61,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-87.51,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),50.48,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),62.63,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-0.84,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),77.14,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),2.77,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),11.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),53.71,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),95.49,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-30.16,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),99.94,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-64.34,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),66.09,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),95.02,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),98.08,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-47.05,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-52.84,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-21.22,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),16.43,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),99.92,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-68.15,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),51.27,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-83.36,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-91.42,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),33.52,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),29.39,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-40.92,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),-6.81,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),99.92,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,feeding preference,individual preference for protein rich meal (10 percent BSA plus 10 percent sucrose) or sucrose only meal as a function of temperature and photoperiod. preference was measured using an index (positive percentages = preference for protein rich  negative values = preference for sucrose only),39.66,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.34363841,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.64953605,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.64771843,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.07467194,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.86041003,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.47041289,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.38956462,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.65945941,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.38985445,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.49998073,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.44822531,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.14500452,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.74131512,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.1649814,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),1.03007631,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.70317625,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.64354682,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),1.3853022,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.12312249,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.14636144,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.16487078,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),1.75041662,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.37042071,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.4155081,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.09059687,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.17761777,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.05672598,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.1068346,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.483432,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.320268,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.741113,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.17241,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.440789,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.121192,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.264701,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),1.01572976,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),1.11584257,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.07911268,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.01071008,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.22460564,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.10618278,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.05576857,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),3.94629144,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),1.04939782,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),1.27131645,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),1.71376761,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.49275169,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.67401403,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.0832025,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),2.05076355,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),2.85928432,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),1.07895187,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.80483881,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.42613541,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.31795537,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.1533371,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.86493712,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),1.5068922,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),1.75509551,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),1.91232296,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.85906879,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),1.32893782,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.37777182,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),1.13814055,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),1.40889676,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),1.05749375,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.0146858,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),1.170842,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.537847,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.318217,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.622822,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.572771,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.224992,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.61481,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.41966435,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.71213106,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.9173947,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.82514454,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.75548733,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.66121234,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),1.44800257,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.79983,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.70960008,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),1.64355365,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.82994902,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),1.36464031,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.46514349,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.74460691,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),1.54849805,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),1.7740739,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.50321199,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),1.080485,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.40569694,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.77112033,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),1.07201067,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),1.48168413,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),1.34914923,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),1.15131183,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),1.16932252,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.87743561,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.45992996,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),1.29650636,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),1.21975828,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),1.50310588,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),2.43670034,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),1.5388425,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),1.90252301,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),1.34360859,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),1.08332849,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),1.06375642,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.88881687,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),1.0399455,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),1.11685333,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),1.3505861,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),1.23191102,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),1.70072397,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.5926,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.886,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.1562,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.3054,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.8553,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.0251,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.6136,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.55214722,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.22328665,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),1.04193761,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.17227926,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),0.75827354,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),1.64481618,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual total meal size (combined sucrose and protein rich meals),1.07535823,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.12593677,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.32459758,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.39865194,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.35209082,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.19245266,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.54125306,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.34702607,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.32980927,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.40082856,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.13558228,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.4729239,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.12643585,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),1.02933295,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.60059309,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.61381257,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),1.38232877,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.06216728,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.02965451,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.04073029,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),1.74535604,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.20004763,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.38402,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.08722315,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.03929507,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.03929507,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.288612,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.25934,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.061625,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.091925,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.042624,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.014379,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.082167,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),1.01439741,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.92198473,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.00183601,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.01071008,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.22460564,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.10618278,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.03978029,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.63766574,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.61372001,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.1015476,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.17914948,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.1015476,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.56804576,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.01374662,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),1.19333925,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),2.46469212,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.8985016,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.66607484,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.20713959,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.20660157,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.1533371,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.51555968,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),1.45485727,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),1.73353818,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.78316481,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.08003144,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),1.32373432,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.08860624,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.16819481,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.10776375,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),1.05412003,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.00625149,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.092438,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.001027,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.001541,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.046733,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.046219,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),5.14e-4,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.03794428,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.12056488,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.9173947,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.82314601,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.74083141,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.60925045,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),1.44800257,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.79575597,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.18463209,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),1.62492951,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.78280666,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),1.2849057,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.42440318,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.72307275,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),1.13121369,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.86648042,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.88776551,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.21462463,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.46117689,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.06695934,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),1.11478761,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),1.09703279,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.57084443,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),1.03569795,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.45086488,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.25663788,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.99642213,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),1.1922541,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.52484905,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),2.43595698,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.27439351,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),1.57990639,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),1.31015756,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),1.0729215,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.28161467,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.20957371,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.40962134,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.6501548,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),1.35002382,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.19617766,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),1.28631817,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.0493,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.038,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.1042,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.397,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.16309919,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.10404076,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),1.04193761,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.17227926,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.75827354,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),1.64415,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (protein rich meal only),0.75092948,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.21770164,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.64953605,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.32312085,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.07467194,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.46175808,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.11832208,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.19711195,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.11820635,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.04282839,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.17017146,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.04739675,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.00942225,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.26839122,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.03854555,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),7.4336e-4,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.10258316,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.02973425,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.00297343,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.06095521,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.11670693,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.12414049,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.00506059,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.17037308,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.03148809,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.00337372,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.1383227,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.01743091,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.1068346,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.19482,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.060928,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.679488,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.080485,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.398165,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.106812,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.182534,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.00133236,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.19385784,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.07727666,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.01598828,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),3.30862571,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.43567781,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),1.16976885,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),1.53461813,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.39120408,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.10596826,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.06945588,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.8574243,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.3945922,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.18045027,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.13876397,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.21899582,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.11135381,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.34937744,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.05203494,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.02155733,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),1.12915815,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.77903735,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.00520349,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.28916558,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.96994574,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),1.30113301,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.00337372,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.00843431,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),1.0784,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.53682,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.31668,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.62282,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.52604,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.17877,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.6143,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.38172007,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.59156618,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.00199853,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.01465592,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.05196189,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.00407403,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.52496799,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.01862414,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.04714236,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.07973461,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.04074031,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.02153416,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.41728436,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.90759348,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.50321199,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.19271949,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.19107231,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.30994345,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),1.00505134,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.36689651,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.25211644,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.5804674,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.13362457,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.42657073,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.20329207999999999,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.30008423,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.02750418,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.97825683,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),7.4336e-4,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),1.26444899,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.32261661,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.03345103,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.01040699,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.78214175,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.67924316,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.63032416,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.46669853,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),5.6229e-4,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),1.03573336,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.4144058,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.5433,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.848,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.0519,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.3054,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.8553,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.0251,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.2166,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.38904803,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.11924589,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),6.6618e-4,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only),0.32442875,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.1382,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.2807,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.1306,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.1996,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.4458,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.4972,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.2747,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.1002,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.2978,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.187,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.0019,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.137,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.0341,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.0984,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.3557,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.2709,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.5394,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.422,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.2494,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.3565,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.3616,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.0666,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.2533,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.0697,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.1805,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.1949,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.1933,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.1873,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.1787,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.0486,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.1742,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.4911,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.4388,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.6607,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.5427,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.3891,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.4012,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.2987,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.4676,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.2744,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.3025,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.3045,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.2063,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.5303,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.0523,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.0984,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.3557,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.6653,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.665,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.3986,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.6699,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.1183,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.4433,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.5703,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.5919,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.594,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.3185,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.32,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.7378,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.4644,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.2881,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.7513,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.1949,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.088,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.0706,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.7967,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.3793,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.4404,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.3122,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.5849,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.0095,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.087,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.2895,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.2309,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.2566,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.1869,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.3027,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.3486,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.0749,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.006,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.0021,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.6765,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.1903,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.1687,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.0046,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.464,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.6765,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),6e-4,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.2326,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.1664,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.4249,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.2728,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.2661,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.0195,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.0931,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.4823,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.4688,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.7139,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.9524,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.5439,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.5582,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.7069,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.8487,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.2115,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.0129,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.2645,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.0191,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.2901,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.0708,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.1642,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.3866,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.1714,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.1291,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.1672,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.2093,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.2105,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.397,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.5324,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.1887,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.1261,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.1549,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.2073,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.064,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.1435,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.1184,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.0768,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.1199,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.244,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.6209,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.0538,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.3858,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),3e-4,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.4966,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.1722,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.4532,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.1782,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.2774,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.0022,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.0337,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.1872,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.1464,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.296,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),1.0028,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.3125,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),4e-4,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.3863,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.3049,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.415,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.1614,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.1188,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.0683,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.0792,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.2556,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.0983,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.3182,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.152,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.381,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.22,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.2076,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.4222,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.4909,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.7968,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.4923,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.4275,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.7964,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.5657,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.0983,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.0259,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.2962,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.024,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.0879,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.3307,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.5251,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.1334,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.3225,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.5497,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.3166,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.2906,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.4015,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.5123,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),1.6049,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.9272,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),1.5087,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.0109,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.3357,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.0227,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.3216,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.2984,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,meal size,individual meal size (sucrose only no choice assay),0.0669,ul,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.766666667,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.566666667,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.6,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.866666667,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.8,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.7,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.566666667,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.566666667,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.6,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.366666667,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.5,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.766666667,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.466666667,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.466666667,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.466666667,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.4,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.666666667,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.6,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.566666667,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.4,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.8,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.6,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.566666667,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.866666667,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.966666667,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,2.1,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.166666667,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.9,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.466666667,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.633333333,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.7,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.366666667,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.666666667,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.566666667,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.6,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.6,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.666666667,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.566666667,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.433333333,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.466666667,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.5,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.6,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.466666667,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.333333333,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.566666667,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.533333333,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.566666667,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.4,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.9,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.533333333,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.466666667,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.5,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.8,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.333333333,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.433333333,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.5,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.566666667,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.266666667,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.4,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.366666667,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.766666667,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.8,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.466666667,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.7,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.6,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.633333333,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.533333333,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.566666667,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.733333333,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.566666667,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.666666667,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.733333333,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.833333333,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.466666667,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.3,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,2,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.9,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.733333333,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.733333333,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.933333333,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.633333333,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.866666667,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.433333333,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.466666667,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.933333333,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.633333333,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.633333333,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.8,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female before blood feeding in no choice assay,1.866666667,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,not fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.3,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.6,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.7,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.3,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.7,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.8,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.7,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.4,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.3,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.7,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.1,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.3,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.3,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.1,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.6,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.1,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.3,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.1,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.6,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.1,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.4,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.2,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.2,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.2,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.8,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.1,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.1,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.4,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.1,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.7,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.7,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,4,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,4.6,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.7,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.2,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.7,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.9,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.4,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.7,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.9,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.2,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.5,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.2,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,4,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.5,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.5,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.7,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.2,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.8,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.4,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.8,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.5,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.2,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.5,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.5,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.2,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.6,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.1,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.2,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.9,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.9,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.4,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.6,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.8,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.8,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.6,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.1,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.1,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.6,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.1,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.1,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.8,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.3,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.1,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.5,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,1.9,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.4,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.3,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.4,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.8,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.8,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.2,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.4,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.8,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.4,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.1,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.4,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.9,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.4,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.2,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.3,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.4,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.5,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,4.6,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.9,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.5,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.4,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,4.2,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.5,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.6,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,4.1,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.7,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.8,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.7,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,4.1,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.1,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.6,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,4.1,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.3,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.4,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.6,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.2,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.7,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.6,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.6,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.6,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.7,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.3,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.7,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.2,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.1,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.4,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.9,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.9,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.2,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.3,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.2,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.3,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.7,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.4,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.4,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.7,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.9,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.3,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.7,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.6,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,4,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.5,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.2,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.2,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.9,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.1,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.6,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.8,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.7,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.8,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.3,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.2,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.7,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.9,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.1,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.4,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.9,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.6,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,4.3,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.6,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.7,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.2,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,3.8,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.9,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,4.2,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.8,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,4.3,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.9,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,body size,individual body weight per female after blood feeding in no choice assay,2.6,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Blood-fed,TRUE,01/01/2024
NA,NA,fecundity,mean proportion of eggs laid out of number produced (i.e. produced but remained in ovaries),0.98524763,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2g,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is an approximation of the total number of individuals across all replicates (2 to 5 reps each containing 13 to 28 individuals),TRUE,01/01/2024
NA,NA,fecundity,mean proportion of eggs laid out of number produced (i.e. produced but remained in ovaries),0.99301397,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2g,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is an approximation of the total number of individuals across all replicates (2 to 5 reps each containing 13 to 28 individuals),TRUE,01/01/2024
NA,NA,fecundity,mean proportion of eggs laid out of number produced (i.e. produced but remained in ovaries),0.99897013,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2g,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is an approximation of the total number of individuals across all replicates (2 to 5 reps each containing 13 to 28 individuals),TRUE,01/01/2024
NA,NA,fecundity,mean proportion of eggs laid out of number produced (i.e. produced but remained in ovaries),0.97254335,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2g,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is an approximation of the total number of individuals across all replicates (2 to 5 reps each containing 13 to 28 individuals),TRUE,01/01/2024
NA,NA,fecundity,mean proportion of eggs laid out of number produced (i.e. produced but remained in ovaries),0.97881586,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2g,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is an approximation of the total number of individuals across all replicates (2 to 5 reps each containing 13 to 28 individuals),TRUE,01/01/2024
NA,NA,fecundity,mean proportion of eggs laid out of number produced (i.e. produced but remained in ovaries),0.60617284,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2g,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is an approximation of the total number of individuals across all replicates (2 to 5 reps each containing 13 to 28 individuals),TRUE,01/01/2024
NA,NA,fecundity,mean proportion of eggs laid out of number produced (i.e. produced but remained in ovaries),0.69828571,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2g,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is an approximation of the total number of individuals across all replicates (2 to 5 reps each containing 13 to 28 individuals),TRUE,01/01/2024
NA,NA,fecundity,mean proportion of eggs laid out of number produced (i.e. produced but remained in ovaries),0.50822016,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2g,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is an approximation of the total number of individuals across all replicates (2 to 5 reps each containing 13 to 28 individuals),TRUE,01/01/2024
NA,NA,fecundity,mean proportion of eggs laid out of number produced (i.e. produced but remained in ovaries),0.32779456,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2g,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is an approximation of the total number of individuals across all replicates (2 to 5 reps each containing 13 to 28 individuals),TRUE,01/01/2024
NA,NA,fecundity,mean proportion of eggs laid out of number produced (i.e. produced but remained in ovaries),0.41646721,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2g,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is an approximation of the total number of individuals across all replicates (2 to 5 reps each containing 13 to 28 individuals),TRUE,01/01/2024
NA,NA,fecundity,mean proportion of eggs laid out of number produced (i.e. produced but remained in ovaries),0.37564767,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2g,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is an approximation of the total number of individuals across all replicates (2 to 5 reps each containing 13 to 28 individuals),TRUE,01/01/2024
NA,NA,fecundity,mean proportion of eggs laid out of number produced (i.e. produced but remained in ovaries),0.51988361,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,NA,NA,NA,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2g,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,interactor1number is an approximation of the total number of individuals across all replicates (2 to 5 reps each containing 13 to 28 individuals),TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,0.61,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,1,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,2,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,17.35,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,3,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,65.82,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,4,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,6.88,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,5,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,4.67,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,6,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,2.17,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,7,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,0.99,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,8,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,0.85,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,9,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,0.61,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,10,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,0.05,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,11,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,12,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,13,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,14,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,1,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,2,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,33.93,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,3,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,46.01,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,4,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,11.59,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,5,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,2.38,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,6,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,1.63,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,7,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,2.13,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,8,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,1.49,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,9,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,0.2,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,10,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,0.3,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,11,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,0.15,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,12,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,0.2,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,13,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,14,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,0.08,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,1,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,2,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,3,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,4,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,44.89,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,5,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,19.62,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,6,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,12.76,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,7,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,7.77,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,8,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,4.58,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,9,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,3.43,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,10,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,3.84,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,11,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,0.33,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,12,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,0.16,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,13,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,2.53,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,14,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,1,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,2,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,3,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,4,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,29.14,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,5,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,29.31,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,6,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,5.86,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,7,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,7.07,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,8,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,13.1,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,9,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,3.45,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,10,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,1.03,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,11,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,5.69,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,12,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,1.55,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,13,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,3.79,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,14,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,1,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,2,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,3,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,4,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,9.18,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,5,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,46.3,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,6,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,23.25,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,7,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,9.91,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,8,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,3.44,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,9,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,0.52,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,10,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,0.21,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,11,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,1.46,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,12,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,1.88,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,13,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,3.86,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,14,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,1,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,2,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,3,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,4,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,15.67,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,5,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,39.86,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,6,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,7.14,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,7,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,1.61,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,8,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,3,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,9,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,3.92,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,10,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,4.84,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,11,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,14.29,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,12,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,5.3,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,13,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,average number of eggs laid during 14 days post blood meal,4.38,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,14,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2h,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,1,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,2,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,3,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,4,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,89,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,5,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,57,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,6,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,14,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,7,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,8,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,9,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,1,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,2,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,3,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,88,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,4,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,5,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,45,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,6,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,21,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,7,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,8,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,9,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,1,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,2,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,3,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,4,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,90,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,5,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,53,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,6,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,7,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,8,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,9,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,1,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,2,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,3,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,4,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,73,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,5,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,32,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,6,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,7,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,8,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,1,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,2,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,3,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,4,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,88,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,5,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,62,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,6,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,27,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,7,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,8,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,9,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,1,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,2,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,3,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,4,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,5,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,80,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,6,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,37,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,7,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,23,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,8,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,10,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,9,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,10,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,11,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,1,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,2,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,3,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,4,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,5,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,6,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,92,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,7,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,69,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,8,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,58,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,9,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,35,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,10,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,11,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,4,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,12,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,13,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,1,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,2,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,3,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,4,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,5,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,95,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,6,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,73,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,7,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,54,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,8,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,14,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,9,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,10,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,11,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,1,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,2,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,3,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,4,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,5,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,6,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,7,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,95,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,8,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,78,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,9,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,66,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,10,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,29,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,11,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,12,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,13,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,14,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,1,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,2,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,3,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,4,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,5,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,96,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,6,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,79,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,7,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,54,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,8,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,13,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,9,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,survival,daily survival of adult females provided with access to water only,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,10,days,days post-eclosion,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 4a,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,14,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,17,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,28,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,18,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,9,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,21,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,9,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,25,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,27,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,8,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,30,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,2,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,33,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,36,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,39,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,41,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,44,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,46,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,49,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,52,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,19,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,58,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,61,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,64,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,68,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,71,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,14,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,17,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,18,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,50,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,21,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,128,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,25,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,27,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,30,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,33,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,36,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,22,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,39,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,41,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,44,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,46,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,49,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,6,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,52,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,58,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,61,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,64,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,68,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,71,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,14,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,17,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,111,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,18,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,672,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,21,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,93,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,25,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,20,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,27,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,30,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,20,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,33,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,36,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,39,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,41,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,44,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,46,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,49,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,52,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,58,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,61,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,64,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,68,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,71,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,14,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,17,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,26,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,18,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,73,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,21,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,84,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,25,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,7,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,27,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,74,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,30,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,33,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,36,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,7,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,39,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,31,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,41,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,3,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,44,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,50,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,46,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,49,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,52,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,58,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,61,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,64,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,68,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,16,hours,NA,NA,71,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,14,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,17,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,87,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,18,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,173,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,21,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,153,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,25,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,38,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,27,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,400,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,30,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,NA,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,33,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,51,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,36,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,39,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,43,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,41,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,44,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,3,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,46,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,3,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,49,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,52,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,58,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,61,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,64,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,68,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,71,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,14,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,17,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,2,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,18,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,209,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,21,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,17,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,25,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,2,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,27,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,32,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,30,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,33,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,101,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,36,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,20,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,39,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,41,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,44,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,10,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,46,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,46,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,49,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,52,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,78,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,58,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,61,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,64,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,68,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,NA,fecundity,mean daily number of eggs produced from 14 days post blood meal until death of the end of the experiment,0,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,photoperiod,daylight hours,8,hours,NA,NA,71,days,day post blood meal,Foshan China,colony,NA,NA,decimal,23.0287132,113.1172272,Aedes albopictus,NA,NA,NA,48,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure S1,Lee et al. 2024. Temperature and photoperiod differentially impact maternal phenotypes in diapause egg laying Aedes albopictus mosquitoes. PLoS Negl Trop Dis. 18:10 e0012626.,10.1371/journal.pntd.0012626,NA,NA,Daniele Da Re,dare.daniele@gmail.com,NA,TRUE,01/01/2024
NA,LB0101,development time,median duration of life stage,14.139,days,0.468,0.468,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Vero Beach Florida USA,field (F1),01/01/1999,1,decimal,27.65,-80.383333,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Lounibos et al. 2001. Does temperature affect the outcome of larval competition between Aedes aegypti and Aedes albopictus? J Vector Ecol. 27:1,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 progeny of Ae. aegypti and Ae. albopictus from 1999 collections of these species from discarded tires and cemetery vases in south Florida were used.,TRUE,01/01/2001
NA,LB0101,development time,median duration of life stage,10.451,days,0.48,0.48,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Vero Beach Florida USA,field (F1),01/01/1999,1,decimal,27.65,-80.383333,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),male,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Lounibos et al. 2001. Does temperature affect the outcome of larval competition between Aedes aegypti and Aedes albopictus? J Vector Ecol. 27:1,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 progeny of Ae. aegypti and Ae. albopictus from 1999 collections of these species from discarded tires and cemetery vases in south Florida were used.,TRUE,01/01/2001
NA,LB0101,development time,median duration of life stage,18.104,days,0.656,0.656,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Vero Beach Florida USA,field (F1),01/01/1999,1,decimal,27.65,-80.383333,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Lounibos et al. 2001. Does temperature affect the outcome of larval competition between Aedes aegypti and Aedes albopictus? J Vector Ecol. 27:1,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 progeny of Ae. aegypti and Ae. albopictus from 1999 collections of these species from discarded tires and cemetery vases in south Florida were used.,TRUE,01/01/2001
NA,LB0101,development time,median duration of life stage,11.993,days,0.691,0.691,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Vero Beach Florida USA,field (F1),01/01/1999,1,decimal,27.65,-80.383333,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,juvenile (L1 to adult),female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Lounibos et al. 2001. Does temperature affect the outcome of larval competition between Aedes aegypti and Aedes albopictus? J Vector Ecol. 27:1,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 progeny of Ae. aegypti and Ae. albopictus from 1999 collections of these species from discarded tires and cemetery vases in south Florida were used.,TRUE,01/01/2001
NA,LB0101,body size,mean adult dry mass,0.215,mg,0.009,0.009,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Vero Beach Florida USA,field (F1),01/01/1999,1,decimal,27.65,-80.383333,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Lounibos et al. 2001. Does temperature affect the outcome of larval competition between Aedes aegypti and Aedes albopictus? J Vector Ecol. 27:1,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 progeny of Ae. aegypti and Ae. albopictus from 1999 collections of these species from discarded tires and cemetery vases in south Florida were used.,TRUE,01/01/2001
NA,LB0101,body size,mean adult dry mass,0.255,mg,0.009,0.009,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Vero Beach Florida USA,field (F1),01/01/1999,1,decimal,27.65,-80.383333,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Lounibos et al. 2001. Does temperature affect the outcome of larval competition between Aedes aegypti and Aedes albopictus? J Vector Ecol. 27:1,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 progeny of Ae. aegypti and Ae. albopictus from 1999 collections of these species from discarded tires and cemetery vases in south Florida were used.,TRUE,01/01/2001
NA,LB0101,body size,mean adult dry mass,0.351,mg,0.011,0.011,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Vero Beach Florida USA,field (F1),01/01/1999,1,decimal,27.65,-80.383333,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Lounibos et al. 2001. Does temperature affect the outcome of larval competition between Aedes aegypti and Aedes albopictus? J Vector Ecol. 27:1,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 progeny of Ae. aegypti and Ae. albopictus from 1999 collections of these species from discarded tires and cemetery vases in south Florida were used.,TRUE,01/01/2001
NA,LB0101,body size,mean adult dry mass,0.382,mg,0.011,0.011,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Vero Beach Florida USA,field (F1),01/01/1999,1,decimal,27.65,-80.383333,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Lounibos et al. 2001. Does temperature affect the outcome of larval competition between Aedes aegypti and Aedes albopictus? J Vector Ecol. 27:1,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 progeny of Ae. aegypti and Ae. albopictus from 1999 collections of these species from discarded tires and cemetery vases in south Florida were used.,TRUE,01/01/2001
NA,LB0101,survival,proportion of adults that emerged from the initial cohort of first-instar larvae,0.485,percent,0.035,0.035,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Vero Beach Florida USA,field (F1),01/01/1999,1,decimal,27.65,-80.383333,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Lounibos et al. 2001. Does temperature affect the outcome of larval competition between Aedes aegypti and Aedes albopictus? J Vector Ecol. 27:1,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 progeny of Ae. aegypti and Ae. albopictus from 1999 collections of these species from discarded tires and cemetery vases in south Florida were used.,TRUE,01/01/2001
NA,LB0101,survival,proportion of adults that emerged from the initial cohort of first-instar larvae,0.439,percent,0.035,0.035,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Vero Beach Florida USA,field (F1),01/01/1999,1,decimal,27.65,-80.383333,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Lounibos et al. 2001. Does temperature affect the outcome of larval competition between Aedes aegypti and Aedes albopictus? J Vector Ecol. 27:1,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 progeny of Ae. aegypti and Ae. albopictus from 1999 collections of these species from discarded tires and cemetery vases in south Florida were used.,TRUE,01/01/2001
NA,LB0102,development time,median duration of life stage,14.632,days,0.698,0.698,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Vero Beach Florida USA,field (F1),01/01/1999,1,decimal,27.65,-80.383333,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),male,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Lounibos et al. 2001. Does temperature affect the outcome of larval competition between Aedes aegypti and Aedes albopictus? J Vector Ecol. 27:1,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 progeny of Ae. aegypti and Ae. albopictus from 1999 collections of these species from discarded tires and cemetery vases in south Florida were used.,TRUE,01/01/2001
NA,LB0102,development time,median duration of life stage,10.188,days,0.698,0.698,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Vero Beach Florida USA,field (F1),01/01/1999,1,decimal,27.65,-80.383333,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),male,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Lounibos et al. 2001. Does temperature affect the outcome of larval competition between Aedes aegypti and Aedes albopictus? J Vector Ecol. 27:1,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 progeny of Ae. aegypti and Ae. albopictus from 1999 collections of these species from discarded tires and cemetery vases in south Florida were used.,TRUE,01/01/2001
NA,LB0102,development time,median duration of life stage,17.083,days,0.628,0.628,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Vero Beach Florida USA,field (F1),01/01/1999,1,decimal,27.65,-80.383333,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Lounibos et al. 2001. Does temperature affect the outcome of larval competition between Aedes aegypti and Aedes albopictus? J Vector Ecol. 27:1,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 progeny of Ae. aegypti and Ae. albopictus from 1999 collections of these species from discarded tires and cemetery vases in south Florida were used.,TRUE,01/01/2001
NA,LB0102,development time,median duration of life stage,11.389,days,0.628,0.628,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Vero Beach Florida USA,field (F1),01/01/1999,1,decimal,27.65,-80.383333,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,juvenile (L1 to adult),female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Lounibos et al. 2001. Does temperature affect the outcome of larval competition between Aedes aegypti and Aedes albopictus? J Vector Ecol. 27:1,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 progeny of Ae. aegypti and Ae. albopictus from 1999 collections of these species from discarded tires and cemetery vases in south Florida were used.,TRUE,01/01/2001
NA,LB0102,body size,mean adult dry mass,0.235,mg,0.008,0.008,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Vero Beach Florida USA,field (F1),01/01/1999,1,decimal,27.65,-80.383333,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Lounibos et al. 2001. Does temperature affect the outcome of larval competition between Aedes aegypti and Aedes albopictus? J Vector Ecol. 27:1,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 progeny of Ae. aegypti and Ae. albopictus from 1999 collections of these species from discarded tires and cemetery vases in south Florida were used.,TRUE,01/01/2001
NA,LB0102,body size,mean adult dry mass,0.253,mg,0.008,0.008,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Vero Beach Florida USA,field (F1),01/01/1999,1,decimal,27.65,-80.383333,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,male,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Lounibos et al. 2001. Does temperature affect the outcome of larval competition between Aedes aegypti and Aedes albopictus? J Vector Ecol. 27:1,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 progeny of Ae. aegypti and Ae. albopictus from 1999 collections of these species from discarded tires and cemetery vases in south Florida were used.,TRUE,01/01/2001
NA,LB0102,body size,mean adult dry mass,0.347,mg,0.01,0.01,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Vero Beach Florida USA,field (F1),01/01/1999,1,decimal,27.65,-80.383333,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Lounibos et al. 2001. Does temperature affect the outcome of larval competition between Aedes aegypti and Aedes albopictus? J Vector Ecol. 27:1,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 progeny of Ae. aegypti and Ae. albopictus from 1999 collections of these species from discarded tires and cemetery vases in south Florida were used.,TRUE,01/01/2001
NA,LB0102,body size,mean adult dry mass,0.368,mg,0.01,0.01,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Vero Beach Florida USA,field (F1),01/01/1999,1,decimal,27.65,-80.383333,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Lounibos et al. 2001. Does temperature affect the outcome of larval competition between Aedes aegypti and Aedes albopictus? J Vector Ecol. 27:1,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 progeny of Ae. aegypti and Ae. albopictus from 1999 collections of these species from discarded tires and cemetery vases in south Florida were used.,TRUE,01/01/2001
NA,LB0102,survival,proportion of adults that emerged from the initial cohort of first-instar larvae,0.44,percent,0.035,0.035,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Vero Beach Florida USA,field (F1),01/01/1999,1,decimal,27.65,-80.383333,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Lounibos et al. 2001. Does temperature affect the outcome of larval competition between Aedes aegypti and Aedes albopictus? J Vector Ecol. 27:1,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 progeny of Ae. aegypti and Ae. albopictus from 1999 collections of these species from discarded tires and cemetery vases in south Florida were used.,TRUE,01/01/2001
NA,LB0102,survival,proportion of adults that emerged from the initial cohort of first-instar larvae,0.514,percent,0.035,0.035,se,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Vero Beach Florida USA,field (F1),01/01/1999,1,decimal,27.65,-80.383333,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,NA,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 3,Lounibos et al. 2001. Does temperature affect the outcome of larval competition between Aedes aegypti and Aedes albopictus? J Vector Ecol. 27:1,NA,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 progeny of Ae. aegypti and Ae. albopictus from 1999 collections of these species from discarded tires and cemetery vases in south Florida were used.,TRUE,01/01/2001
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,0,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,0,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,0,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,0,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,0,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,5,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,86,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,5,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,88,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,5,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,88,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,5,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,88,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,5,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,88,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,88,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,15,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,15,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,88,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,15,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,86,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,15,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,20,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,20,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,86,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,20,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,25,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,25,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,60,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,25,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,30,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,0,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,0,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,0,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,0,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,0,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,5,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,89,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,5,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,5,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,90,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,5,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,78,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,5,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,88,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,44,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,75,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,90,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,38,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,57,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,15,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,15,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,13,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,15,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,15,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,60,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,15,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,40,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,20,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,20,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,20,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,13,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,20,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,20,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,25,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,25,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,25,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,25,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,25,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,30,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,30,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,30,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,30,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of thorax-abdomen samples testing positive for virus genomes out of total number of samples,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,30,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,0,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,0,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,0,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,0,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,0,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,5,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,5,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,5,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,50,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,5,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,63,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,5,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,17,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,25,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,88,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,88,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,20,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,15,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,83,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,15,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,63,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,15,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,57,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,15,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,20,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,57,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,20,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,57,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,20,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,25,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,2,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,25,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,60,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,25,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,30,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,0,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,0,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,0,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,0,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,0,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,5,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,5,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,5,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,40,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,5,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,22,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,5,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,75,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,70,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,38,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,15,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,15,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,13,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,15,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,11,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,15,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,15,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,40,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,20,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,20,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,9,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,33,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,20,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,6,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,13,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,20,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,20,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,25,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,25,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,25,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,8,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,29,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,25,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,25,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,30,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,3,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,30,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,7,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,30,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,4,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,40,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,30,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,5,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,infection rate,percentage of salivary gland samples testing positive for virus genomes out of total number of samples,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,30,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in thorax-abdomen samples as a function of days post infection and temperature,2.84,virus titres (exp10),0.41,0.41,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,0,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in thorax-abdomen samples as a function of days post infection and temperature,2.86,virus titres (exp10),0.4,0.4,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,0,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in thorax-abdomen samples as a function of days post infection and temperature,2.7,virus titres (exp10),0.56,0.56,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,0,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in thorax-abdomen samples as a function of days post infection and temperature,2.84,virus titres (exp10),0.33,0.33,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,0,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in thorax-abdomen samples as a function of days post infection and temperature,2.72,virus titres (exp10),0.44,0.44,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,0,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in thorax-abdomen samples as a function of days post infection and temperature,2.36,virus titres (exp10),0.26,0.26,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,5,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in thorax-abdomen samples as a function of days post infection and temperature,2.73,virus titres (exp10),0.21,0.21,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,5,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in thorax-abdomen samples as a function of days post infection and temperature,2.8,virus titres (exp10),0.53,0.53,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,5,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in thorax-abdomen samples as a function of days post infection and temperature,3.25,virus titres (exp10),0.53,0.53,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,5,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in thorax-abdomen samples as a function of days post infection and temperature,3.38,virus titres (exp10),0.58,0.58,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,5,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in thorax-abdomen samples as a function of days post infection and temperature,2.41,virus titres (exp10),0.33,0.33,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in thorax-abdomen samples as a function of days post infection and temperature,2.81,virus titres (exp10),0.41,0.41,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in thorax-abdomen samples as a function of days post infection and temperature,3.21,virus titres (exp10),0.7,0.7,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in thorax-abdomen samples as a function of days post infection and temperature,3.67,virus titres (exp10),0.73,0.73,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in thorax-abdomen samples as a function of days post infection and temperature,3.66,virus titres (exp10),0.54,0.54,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in thorax-abdomen samples as a function of days post infection and temperature,2.93,virus titres (exp10),0.43,0.43,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,15,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in thorax-abdomen samples as a function of days post infection and temperature,3.49,virus titres (exp10),0.47,0.47,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,15,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in thorax-abdomen samples as a function of days post infection and temperature,4.05,virus titres (exp10),0.86,0.86,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,15,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in thorax-abdomen samples as a function of days post infection and temperature,4.09,virus titres (exp10),0.71,0.71,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,15,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in thorax-abdomen samples as a function of days post infection and temperature,3.01,virus titres (exp10),0.15,0.15,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,20,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in thorax-abdomen samples as a function of days post infection and temperature,3.81,virus titres (exp10),0.66,0.66,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,20,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in thorax-abdomen samples as a function of days post infection and temperature,3.96,virus titres (exp10),0.4,0.4,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,20,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in thorax-abdomen samples as a function of days post infection and temperature,3.25,virus titres (exp10),NA,NA,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,25,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in thorax-abdomen samples as a function of days post infection and temperature,3.7,virus titres (exp10),0.63,0.63,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,25,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in thorax-abdomen samples as a function of days post infection and temperature,3.75,virus titres (exp10),0.58,0.58,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,25,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in thorax-abdomen samples as a function of days post infection and temperature,3.66,virus titres (exp10),0.63,0.63,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,30,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in thorax-abdomen samples as a function of days post infection and temperature,3.83,virus titres (exp10),0.35,0.35,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,30,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in saliva samples as a function of days post infection and temperature,1.54,virus titres (exp10),NA,NA,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in saliva samples as a function of days post infection and temperature,2.09,virus titres (exp10),0.08,0.08,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in saliva samples as a function of days post infection and temperature,2.67,virus titres (exp10),0.33,0.33,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in saliva samples as a function of days post infection and temperature,2.96,virus titres (exp10),0.52,0.52,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in saliva samples as a function of days post infection and temperature,1.82,virus titres (exp10),NA,NA,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,15,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in saliva samples as a function of days post infection and temperature,2.69,virus titres (exp10),0.43,0.43,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,15,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in saliva samples as a function of days post infection and temperature,3.38,virus titres (exp10),0.49,0.49,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,15,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in saliva samples as a function of days post infection and temperature,3.64,virus titres (exp10),0.37,0.37,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,15,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in saliva samples as a function of days post infection and temperature,2.54,virus titres (exp10),0.31,0.31,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,20,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in saliva samples as a function of days post infection and temperature,3.81,virus titres (exp10),0.82,0.82,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,20,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in saliva samples as a function of days post infection and temperature,3.76,virus titres (exp10),0.41,0.41,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,20,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in saliva samples as a function of days post infection and temperature,2.38,virus titres (exp10),NA,NA,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,25,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in saliva samples as a function of days post infection and temperature,3.68,virus titres (exp10),0.77,0.77,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,25,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in saliva samples as a function of days post infection and temperature,3.65,virus titres (exp10),0.44,0.44,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,25,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in saliva samples as a function of days post infection and temperature,3.89,virus titres (exp10),0.58,0.58,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,30,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in saliva samples as a function of days post infection and temperature,3.8,virus titres (exp10),0.26,0.26,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,30,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in head samples as a function of days post infection and temperature,1.95,virus titres (exp10),NA,NA,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,15,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in head samples as a function of days post infection and temperature,2.17,virus titres (exp10),0.13,0.13,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in head samples as a function of days post infection and temperature,2.46,virus titres (exp10),0.11,0.11,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in head samples as a function of days post infection and temperature,2.47,virus titres (exp10),0.44,0.44,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,15,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in head samples as a function of days post infection and temperature,2.54,virus titres (exp10),0.35,0.35,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,15,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in head samples as a function of days post infection and temperature,2.44,virus titres (exp10),0.31,0.31,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,20,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in head samples as a function of days post infection and temperature,2.56,virus titres (exp10),0.31,0.31,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,20,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in head samples as a function of days post infection and temperature,2.44,virus titres (exp10),0.45,0.45,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,25,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in head samples as a function of days post infection and temperature,2.56,virus titres (exp10),0.37,0.37,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,25,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in head samples as a function of days post infection and temperature,2.35,virus titres (exp10),0.43,0.43,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,30,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in head samples as a function of days post infection and temperature,2.39,virus titres (exp10),0.03,0.03,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,30,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in thorax-abdomen samples as a function of days post infection and temperature,3.19,virus titres (exp10),0.42,0.42,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,0,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in thorax-abdomen samples as a function of days post infection and temperature,3.33,virus titres (exp10),0.64,0.64,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,0,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in thorax-abdomen samples as a function of days post infection and temperature,2.98,virus titres (exp10),0.3,0.3,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,0,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in thorax-abdomen samples as a function of days post infection and temperature,3.04,virus titres (exp10),0.51,0.51,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,0,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in thorax-abdomen samples as a function of days post infection and temperature,3.24,virus titres (exp10),0.42,0.42,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,0,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in thorax-abdomen samples as a function of days post infection and temperature,1.73,virus titres (exp10),0.41,0.41,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,5,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in thorax-abdomen samples as a function of days post infection and temperature,0.52,virus titres (exp10),0.48,0.48,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,5,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in thorax-abdomen samples as a function of days post infection and temperature,1.02,virus titres (exp10),0.1,0.1,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,5,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in thorax-abdomen samples as a function of days post infection and temperature,1.15,virus titres (exp10),0.87,0.87,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,5,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in thorax-abdomen samples as a function of days post infection and temperature,0.9,virus titres (exp10),0.63,0.63,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,5,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in thorax-abdomen samples as a function of days post infection and temperature,0.82,virus titres (exp10),0.62,0.62,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in thorax-abdomen samples as a function of days post infection and temperature,0.57,virus titres (exp10),0.16,0.16,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in thorax-abdomen samples as a function of days post infection and temperature,1.01,virus titres (exp10),1.02,1.02,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in thorax-abdomen samples as a function of days post infection and temperature,2.39,virus titres (exp10),1.31,1.31,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in thorax-abdomen samples as a function of days post infection and temperature,0.7,virus titres (exp10),0.45,0.45,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in thorax-abdomen samples as a function of days post infection and temperature,1.05,virus titres (exp10),0.52,0.52,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,15,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in thorax-abdomen samples as a function of days post infection and temperature,0.23,virus titres (exp10),NA,NA,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,15,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in thorax-abdomen samples as a function of days post infection and temperature,1.08,virus titres (exp10),0.58,0.58,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,15,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in thorax-abdomen samples as a function of days post infection and temperature,0.99,virus titres (exp10),0.67,0.67,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,15,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in thorax-abdomen samples as a function of days post infection and temperature,1.66,virus titres (exp10),0.13,0.13,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,20,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in thorax-abdomen samples as a function of days post infection and temperature,0.81,virus titres (exp10),0.59,0.59,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,20,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in thorax-abdomen samples as a function of days post infection and temperature,0.7,virus titres (exp10),NA,NA,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,20,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in thorax-abdomen samples as a function of days post infection and temperature,1.07,virus titres (exp10),NA,NA,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,25,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in thorax-abdomen samples as a function of days post infection and temperature,1.08,virus titres (exp10),NA,NA,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,25,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in salivary gland samples as a function of days post infection and temperature,1.51,virus titres (exp10),0.31,0.31,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,5,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in salivary gland samples as a function of days post infection and temperature,0.89,virus titres (exp10),0.76,0.76,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,5,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in salivary gland samples as a function of days post infection and temperature,0.85,virus titres (exp10),0.81,0.81,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in salivary gland samples as a function of days post infection and temperature,1.2,virus titres (exp10),0.58,0.58,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in salivary gland samples as a function of days post infection and temperature,1.01,virus titres (exp10),0.19,0.19,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in salivary gland samples as a function of days post infection and temperature,0.88,virus titres (exp10),0.88,0.88,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,15,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in salivary gland samples as a function of days post infection and temperature,0.91,virus titres (exp10),0.91,0.91,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,15,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in salivary gland samples as a function of days post infection and temperature,0.49,virus titres (exp10),0.49,0.49,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,20,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in salivary gland samples as a function of days post infection and temperature,0.14,virus titres (exp10),0.14,0.14,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,20,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in salivary gland samples as a function of days post infection and temperature,0.18,virus titres (exp10),0.19,0.19,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,25,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in salivary gland samples as a function of days post infection and temperature,0.12,virus titres (exp10),0.05,0.05,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,25,days post infection,NA,Kaohsiung City Taiwan,field (F1),02/01/2015,3,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in head samples as a function of days post infection and temperature,0.38,virus titres (exp10),0.21,0.21,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,5,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in head samples as a function of days post infection and temperature,0.42,virus titres (exp10),0.28,0.28,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,5,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in head samples as a function of days post infection and temperature,0.37,virus titres (exp10),0.34,0.34,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,5,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in head samples as a function of days post infection and temperature,0.8,virus titres (exp10),1.1,1.1,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in head samples as a function of days post infection and temperature,1.32,virus titres (exp10),1.32,1.32,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in head samples as a function of days post infection and temperature,0.16,virus titres (exp10),0.16,0.16,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in head samples as a function of days post infection and temperature,0.22,virus titres (exp10),0.22,0.22,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,15,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,viral load,mean viral titres in head samples as a function of days post infection and temperature,0.8,virus titres (exp10),0.98,0.98,sd (exp10),NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,30,days post infection,NA,Kaohsiung City Taiwan,field (F1),02/01/2015,3,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,0,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5a,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,59.82,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,5,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5a,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,39.96,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5a,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,15,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5a,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,20,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5a,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,25,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5a,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,30,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5a,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,0,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5a,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,69.76,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,5,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5a,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,58.94,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5a,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,49.89,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,15,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5a,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,20,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5a,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,25,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5a,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,30,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5a,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,80.13,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,0,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5a,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,79.25,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,5,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5a,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,59.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5a,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,39.51,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,15,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5a,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,19.21,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,20,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5a,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,25,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5a,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,0,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,30,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5a,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,0,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5a,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,80.57,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,5,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5a,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,79.03,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5a,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,79.91,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,15,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5a,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,79.47,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,20,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5a,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,69.54,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,25,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5a,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,59.82,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,30,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5a,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,0,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5a,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,80.57,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,5,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5a,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,79.69,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5a,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,79.69,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,15,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5a,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,69.98,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,20,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5a,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,68.87,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,25,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5a,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,49.89,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,30,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes aegypti,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5a,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,0,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5b,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,89.73,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,5,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5b,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,80,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5b,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,70.62,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,15,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5b,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,50.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,20,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5b,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,39.65,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,25,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5b,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,29.73,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,30,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5b,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,0,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5b,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,89.38,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,5,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5b,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,90.97,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5b,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,90.44,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,15,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5b,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,89.73,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,20,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5b,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,80.18,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,25,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,16,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5b,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,70.44,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,30,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5b,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,0,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5b,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,89.56,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,5,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5b,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,80,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5b,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,79.82,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,15,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5b,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,59.82,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,20,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5b,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,49.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,25,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5b,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,39.47,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,30,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5b,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,0,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5b,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,5,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5b,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,90.44,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5b,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,90.44,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,15,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5b,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,80,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,20,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5b,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,69.91,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,25,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5b,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,50.44,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,30,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5b,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,0,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5b,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,90.09,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,5,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5b,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,80,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,10,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5b,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,50.09,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,15,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5b,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,30.09,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,20,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5b,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,19.82,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,25,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5b,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,survival,percentage surviving as a function of days post infection and incubation temperature,9.73,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,viral strain,dengue virus serotype 1 (strain H1030440),NA,NA,NA,NA,30,days post infection,NA,Kaohsiung City Taiwan,field (F1),01/01/2015,2,decimal,22.615,120.2975,Aedes albopictus,NA,NA,NA,10,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,34,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 5b,Tsai et al. 2017. The impact of temperature and Wolbachia infection on vector competence of potential dengue vectors Aedes aegypti and Aedes albopictus in the transmission of dengue virus serotype 1 in southern Taiwan. Parasites and Vector 10:551,10.1186/s13071-017-2493-x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 adults reared under the same conditions - 20 to 30 degC with a photoperiod of 10:14 h (L:D),TRUE,01/01/2017
NA,NA,development time,mean duration of life stage,12.7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet type,TabiMin (dairy content),NA,NA,NA,NA,NA,NA,NA,Furth Bavaria Germany,colony,01/01/2019,1,decimal,49.47662177,10.98690831,Aedes albopictus,NA,NA,NA,96,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Rau et al. 2022. Impact of larvae of the Asian tiger mosquito Aedes albopictus on larvae of the Culex pipiens complex from Germany in laboratory co-breeding studies. Journal of Medical and Veterinary Entomology 37:3,doi.org/10.1111/mve.12650,NA,NA,Daniele Da Re,dare.daniele@gmail.com,reared at 70% RH 12:12 L:D. Diet protocol: 0.012 g food/beaker on days 1 2 3 5 7 8 9 and 11,TRUE,01/01/2022
NA,NA,development time,mean duration of life stage,13.48,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet type,NanoGran (non diary content),NA,NA,NA,NA,NA,NA,NA,Furth Bavaria Germany,colony,01/01/2019,1,decimal,49.47662177,10.98690831,Aedes albopictus,NA,NA,NA,96,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Rau et al. 2022. Impact of larvae of the Asian tiger mosquito Aedes albopictus on larvae of the Culex pipiens complex from Germany in laboratory co-breeding studies. Journal of Medical and Veterinary Entomology 37:3,doi.org/10.1111/mve.12650,NA,NA,Daniele Da Re,dare.daniele@gmail.com,reared at 70% RH 12:12 L:D. Diet protocol: 0.012 g food/beaker on days 1 2 3 5 7 8 9 and 11,TRUE,01/01/2022
NA,NA,development rate,rate of development during life stage,0.6875,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet type,TabiMin (dairy content),NA,NA,NA,NA,NA,NA,NA,Furth Bavaria Germany,colony,01/01/2019,1,decimal,49.47662177,10.98690831,Aedes albopictus,NA,NA,NA,96,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Rau et al. 2022. Impact of larvae of the Asian tiger mosquito Aedes albopictus on larvae of the Culex pipiens complex from Germany in laboratory co-breeding studies. Journal of Medical and Veterinary Entomology 37:3,doi.org/10.1111/mve.12650,NA,NA,Daniele Da Re,dare.daniele@gmail.com,reared at 70% RH 12:12 L:D. Diet protocol: 0.012 g food/beaker on days 1 2 3 5 7 8 9 and 11,TRUE,01/01/2022
NA,NA,development rate,rate of development during life stage,0.5556,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet type,NanoGran (non diary content),NA,NA,NA,NA,NA,NA,NA,Furth Bavaria Germany,colony,01/01/2019,1,decimal,49.47662177,10.98690831,Aedes albopictus,NA,NA,NA,96,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Rau et al. 2022. Impact of larvae of the Asian tiger mosquito Aedes albopictus on larvae of the Culex pipiens complex from Germany in laboratory co-breeding studies. Journal of Medical and Veterinary Entomology 37:3,doi.org/10.1111/mve.12650,NA,NA,Daniele Da Re,dare.daniele@gmail.com,reared at 70% RH 12:12 L:D. Diet protocol: 0.012 g food/beaker on days 1 2 3 5 7 8 9 and 11,TRUE,01/01/2022
NA,NA,wing length,average wing length,2.78,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet type,TabiMin (dairy content),NA,NA,NA,NA,NA,NA,NA,Furth Bavaria Germany,colony,01/01/2019,1,decimal,49.47662177,10.98690831,Aedes albopictus,NA,NA,NA,26,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Rau et al. 2022. Impact of larvae of the Asian tiger mosquito Aedes albopictus on larvae of the Culex pipiens complex from Germany in laboratory co-breeding studies. Journal of Medical and Veterinary Entomology 37:3,doi.org/10.1111/mve.12650,NA,NA,Daniele Da Re,dare.daniele@gmail.com,reared at 70% RH 12:12 L:D. Diet protocol: 0.012 g food/beaker on days 1 2 3 5 7 8 9 and 11,TRUE,01/01/2022
NA,NA,wing length,average wing length,2.82,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet type,NanoGran (non diary content),NA,NA,NA,NA,NA,NA,NA,Furth Bavaria Germany,colony,01/01/2019,1,decimal,49.47662177,10.98690831,Aedes albopictus,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Rau et al. 2022. Impact of larvae of the Asian tiger mosquito Aedes albopictus on larvae of the Culex pipiens complex from Germany in laboratory co-breeding studies. Journal of Medical and Veterinary Entomology 37:3,doi.org/10.1111/mve.12650,NA,NA,Daniele Da Re,dare.daniele@gmail.com,reared at 70% RH 12:12 L:D. Diet protocol: 0.012 g food/beaker on days 1 2 3 5 7 8 9 and 11,TRUE,01/01/2022
NA,NA,wing length,average wing length,2.2,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet type,TabiMin (dairy content),NA,NA,NA,NA,NA,NA,NA,Furth Bavaria Germany,colony,01/01/2019,1,decimal,49.47662177,10.98690831,Aedes albopictus,NA,NA,NA,31,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Rau et al. 2022. Impact of larvae of the Asian tiger mosquito Aedes albopictus on larvae of the Culex pipiens complex from Germany in laboratory co-breeding studies. Journal of Medical and Veterinary Entomology 37:3,doi.org/10.1111/mve.12650,NA,NA,Daniele Da Re,dare.daniele@gmail.com,reared at 70% RH 12:12 L:D. Diet protocol: 0.012 g food/beaker on days 1 2 3 5 7 8 9 and 11,TRUE,01/01/2022
NA,NA,wing length,average wing length,2.29,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet type,NanoGran (non diary content),NA,NA,NA,NA,NA,NA,NA,Furth Bavaria Germany,colony,01/01/2019,1,decimal,49.47662177,10.98690831,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Rau et al. 2022. Impact of larvae of the Asian tiger mosquito Aedes albopictus on larvae of the Culex pipiens complex from Germany in laboratory co-breeding studies. Journal of Medical and Veterinary Entomology 37:3,doi.org/10.1111/mve.12650,NA,NA,Daniele Da Re,dare.daniele@gmail.com,reared at 70% RH 12:12 L:D. Diet protocol: 0.012 g food/beaker on days 1 2 3 5 7 8 9 and 11,TRUE,01/01/2022
NA,NA,development time,mean duration of life stage,9.75,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet type,TabiMin (dairy content),NA,NA,NA,NA,NA,NA,NA,Furth Bavaria Germany,colony,01/01/2019,1,decimal,49.47662177,10.98690831,Aedes albopictus,NA,NA,NA,96,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Rau et al. 2022. Impact of larvae of the Asian tiger mosquito Aedes albopictus on larvae of the Culex pipiens complex from Germany in laboratory co-breeding studies. Journal of Medical and Veterinary Entomology 37:3,doi.org/10.1111/mve.12650,NA,NA,Daniele Da Re,dare.daniele@gmail.com,reared at 70% RH 12:12 L:D. Diet protocol: 0.012 g food/beaker on days 1 2 3 5 7 8 9 and 11,TRUE,01/01/2022
NA,NA,development time,mean duration of life stage,10.6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet type,NanoGran (non diary content),NA,NA,NA,NA,NA,NA,NA,Furth Bavaria Germany,colony,01/01/2019,1,decimal,49.47662177,10.98690831,Aedes albopictus,NA,NA,NA,96,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Rau et al. 2022. Impact of larvae of the Asian tiger mosquito Aedes albopictus on larvae of the Culex pipiens complex from Germany in laboratory co-breeding studies. Journal of Medical and Veterinary Entomology 37:3,doi.org/10.1111/mve.12650,NA,NA,Daniele Da Re,dare.daniele@gmail.com,reared at 70% RH 12:12 L:D. Diet protocol: 0.012 g food/beaker on days 1 2 3 5 7 8 9 and 11,TRUE,01/01/2022
NA,NA,development rate,rate of development during life stage,0.8021,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet type,TabiMin (dairy content),NA,NA,NA,NA,NA,NA,NA,Furth Bavaria Germany,colony,01/01/2019,1,decimal,49.47662177,10.98690831,Aedes albopictus,NA,NA,NA,96,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Rau et al. 2022. Impact of larvae of the Asian tiger mosquito Aedes albopictus on larvae of the Culex pipiens complex from Germany in laboratory co-breeding studies. Journal of Medical and Veterinary Entomology 37:3,doi.org/10.1111/mve.12650,NA,NA,Daniele Da Re,dare.daniele@gmail.com,reared at 70% RH 12:12 L:D. Diet protocol: 0.012 g food/beaker on days 1 2 3 5 7 8 9 and 11,TRUE,01/01/2022
NA,NA,development rate,rate of development during life stage,0.8958,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet type,NanoGran (non diary content),NA,NA,NA,NA,NA,NA,NA,Furth Bavaria Germany,colony,01/01/2019,1,decimal,49.47662177,10.98690831,Aedes albopictus,NA,NA,NA,96,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Rau et al. 2022. Impact of larvae of the Asian tiger mosquito Aedes albopictus on larvae of the Culex pipiens complex from Germany in laboratory co-breeding studies. Journal of Medical and Veterinary Entomology 37:3,doi.org/10.1111/mve.12650,NA,NA,Daniele Da Re,dare.daniele@gmail.com,reared at 70% RH 12:12 L:D. Diet protocol: 0.012 g food/beaker on days 1 2 3 5 7 8 9 and 11,TRUE,01/01/2022
NA,NA,wing length,Average Wing Length,2.51,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet type,TabiMin (dairy content),NA,NA,NA,NA,NA,NA,NA,Furth Bavaria Germany,colony,01/01/2019,1,decimal,49.47662177,10.98690831,Aedes albopictus,NA,NA,NA,27,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Rau et al. 2022. Impact of larvae of the Asian tiger mosquito Aedes albopictus on larvae of the Culex pipiens complex from Germany in laboratory co-breeding studies. Journal of Medical and Veterinary Entomology 37:3,doi.org/10.1111/mve.12650,NA,NA,Daniele Da Re,dare.daniele@gmail.com,reared at 70% RH 12:12 L:D. Diet protocol: 0.012 g food/beaker on days 1 2 3 5 7 8 9 and 11,TRUE,01/01/2022
NA,NA,wing length,Average Wing Length,2.45,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet type,NanoGran (non diary content),NA,NA,NA,NA,NA,NA,NA,Furth Bavaria Germany,colony,01/01/2019,1,decimal,49.47662177,10.98690831,Aedes albopictus,NA,NA,NA,33,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Rau et al. 2022. Impact of larvae of the Asian tiger mosquito Aedes albopictus on larvae of the Culex pipiens complex from Germany in laboratory co-breeding studies. Journal of Medical and Veterinary Entomology 37:3,doi.org/10.1111/mve.12650,NA,NA,Daniele Da Re,dare.daniele@gmail.com,reared at 70% RH 12:12 L:D. Diet protocol: 0.012 g food/beaker on days 1 2 3 5 7 8 9 and 11,TRUE,01/01/2022
NA,NA,wing length,Average Wing Length,2.05,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet type,TabiMin (dairy content),NA,NA,NA,NA,NA,NA,NA,Furth Bavaria Germany,colony,01/01/2019,1,decimal,49.47662177,10.98690831,Aedes albopictus,NA,NA,NA,47,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Rau et al. 2022. Impact of larvae of the Asian tiger mosquito Aedes albopictus on larvae of the Culex pipiens complex from Germany in laboratory co-breeding studies. Journal of Medical and Veterinary Entomology 37:3,doi.org/10.1111/mve.12650,NA,NA,Daniele Da Re,dare.daniele@gmail.com,reared at 70% RH 12:12 L:D. Diet protocol: 0.012 g food/beaker on days 1 2 3 5 7 8 9 and 11,TRUE,01/01/2022
NA,NA,wing length,Average Wing Length,1.92,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet type,NanoGran (non diary content),NA,NA,NA,NA,NA,NA,NA,Furth Bavaria Germany,colony,01/01/2019,1,decimal,49.47662177,10.98690831,Aedes albopictus,NA,NA,NA,38,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S1,Rau et al. 2022. Impact of larvae of the Asian tiger mosquito Aedes albopictus on larvae of the Culex pipiens complex from Germany in laboratory co-breeding studies. Journal of Medical and Veterinary Entomology 37:3,doi.org/10.1111/mve.12650,NA,NA,Daniele Da Re,dare.daniele@gmail.com,reared at 70% RH 12:12 L:D. Diet protocol: 0.012 g food/beaker on days 1 2 3 5 7 8 9 and 11,TRUE,01/01/2022
NA,NA,development time,mean duration of life stage,13.66,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet type,TabiMin (dairy content),NA,NA,NA,NA,NA,NA,NA,Furth Bavaria Germany,colony,01/01/2019,1,decimal,49.47662177,10.98690831,Aedes albopictus,NA,NA,NA,96,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S5,Rau et al. 2022. Impact of larvae of the Asian tiger mosquito Aedes albopictus on larvae of the Culex pipiens complex from Germany in laboratory co-breeding studies. Journal of Medical and Veterinary Entomology 37:3,doi.org/10.1111/mve.12650,NA,NA,Daniele Da Re,dare.daniele@gmail.com,reared at 70% RH 12:12 L:D. Diet protocol: 0.012 g food/beaker on days 1 2 3 5 7 8 9 and 11,TRUE,01/01/2022
NA,NA,development time,mean duration of life stage,14.42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet type,NanoGran (non diary content),NA,NA,NA,NA,NA,NA,NA,Furth Bavaria Germany,colony,01/01/2019,1,decimal,49.47662177,10.98690831,Aedes albopictus,NA,NA,NA,96,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S5,Rau et al. 2022. Impact of larvae of the Asian tiger mosquito Aedes albopictus on larvae of the Culex pipiens complex from Germany in laboratory co-breeding studies. Journal of Medical and Veterinary Entomology 37:3,doi.org/10.1111/mve.12650,NA,NA,Daniele Da Re,dare.daniele@gmail.com,reared at 70% RH 12:12 L:D. Diet protocol: 0.012 g food/beaker on days 1 2 3 5 7 8 9 and 11,TRUE,01/01/2022
NA,NA,development rate,rate of development during life stage,0.67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet type,TabiMin (dairy content),NA,NA,NA,NA,NA,NA,NA,Furth Bavaria Germany,colony,01/01/2019,1,decimal,49.47662177,10.98690831,Aedes albopictus,NA,NA,NA,96,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S5,Rau et al. 2022. Impact of larvae of the Asian tiger mosquito Aedes albopictus on larvae of the Culex pipiens complex from Germany in laboratory co-breeding studies. Journal of Medical and Veterinary Entomology 37:3,doi.org/10.1111/mve.12650,NA,NA,Daniele Da Re,dare.daniele@gmail.com,reared at 70% RH 12:12 L:D. Diet protocol: 0.012 g food/beaker on days 1 2 3 5 7 8 9 and 11,TRUE,01/01/2022
NA,NA,development rate,rate of development during life stage,0.7396,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet type,NanoGran (non diary content),NA,NA,NA,NA,NA,NA,NA,Furth Bavaria Germany,colony,01/01/2019,1,decimal,49.47662177,10.98690831,Aedes albopictus,NA,NA,NA,96,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S5,Rau et al. 2022. Impact of larvae of the Asian tiger mosquito Aedes albopictus on larvae of the Culex pipiens complex from Germany in laboratory co-breeding studies. Journal of Medical and Veterinary Entomology 37:3,doi.org/10.1111/mve.12650,NA,NA,Daniele Da Re,dare.daniele@gmail.com,reared at 70% RH 12:12 L:D. Diet protocol: 0.012 g food/beaker on days 1 2 3 5 7 8 9 and 11,TRUE,01/01/2022
NA,NA,wing length,average wing length,2.79,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet type,TabiMin (dairy content),NA,NA,NA,NA,NA,NA,NA,Furth Bavaria Germany,colony,01/01/2019,1,decimal,49.47662177,10.98690831,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S5,Rau et al. 2022. Impact of larvae of the Asian tiger mosquito Aedes albopictus on larvae of the Culex pipiens complex from Germany in laboratory co-breeding studies. Journal of Medical and Veterinary Entomology 37:3,doi.org/10.1111/mve.12650,NA,NA,Daniele Da Re,dare.daniele@gmail.com,reared at 70% RH 12:12 L:D. Diet protocol: 0.012 g food/beaker on days 1 2 3 5 7 8 9 and 11,TRUE,01/01/2022
NA,NA,wing length,average wing length,2.78,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet type,NanoGran (non diary content),NA,NA,NA,NA,NA,NA,NA,Furth Bavaria Germany,colony,01/01/2019,1,decimal,49.47662177,10.98690831,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S5,Rau et al. 2022. Impact of larvae of the Asian tiger mosquito Aedes albopictus on larvae of the Culex pipiens complex from Germany in laboratory co-breeding studies. Journal of Medical and Veterinary Entomology 37:3,doi.org/10.1111/mve.12650,NA,NA,Daniele Da Re,dare.daniele@gmail.com,reared at 70% RH 12:12 L:D. Diet protocol: 0.012 g food/beaker on days 1 2 3 5 7 8 9 and 11,TRUE,01/01/2022
NA,NA,wing length,average wing length,2.2,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet type,TabiMin (dairy content),NA,NA,NA,NA,NA,NA,NA,Furth Bavaria Germany,colony,01/01/2019,1,decimal,49.47662177,10.98690831,Aedes albopictus,NA,NA,NA,33,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S5,Rau et al. 2022. Impact of larvae of the Asian tiger mosquito Aedes albopictus on larvae of the Culex pipiens complex from Germany in laboratory co-breeding studies. Journal of Medical and Veterinary Entomology 37:3,doi.org/10.1111/mve.12650,NA,NA,Daniele Da Re,dare.daniele@gmail.com,reared at 70% RH 12:12 L:D. Diet protocol: 0.012 g food/beaker on days 1 2 3 5 7 8 9 and 11,TRUE,01/01/2022
NA,NA,wing length,average wing length,2.21,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet type,NanoGran (non diary content),NA,NA,NA,NA,NA,NA,NA,Furth Bavaria Germany,colony,01/01/2019,1,decimal,49.47662177,10.98690831,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S5,Rau et al. 2022. Impact of larvae of the Asian tiger mosquito Aedes albopictus on larvae of the Culex pipiens complex from Germany in laboratory co-breeding studies. Journal of Medical and Veterinary Entomology 37:3,doi.org/10.1111/mve.12650,NA,NA,Daniele Da Re,dare.daniele@gmail.com,reared at 70% RH 12:12 L:D. Diet protocol: 0.012 g food/beaker on days 1 2 3 5 7 8 9 and 11,TRUE,01/01/2022
NA,NA,development time,mean duration of life stage,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet type,TabiMin (dairy content),NA,NA,NA,NA,NA,NA,NA,Furth Bavaria Germany,colony,01/01/2019,1,decimal,49.47662177,10.98690831,Aedes albopictus,NA,NA,NA,96,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S5,Rau et al. 2022. Impact of larvae of the Asian tiger mosquito Aedes albopictus on larvae of the Culex pipiens complex from Germany in laboratory co-breeding studies. Journal of Medical and Veterinary Entomology 37:3,doi.org/10.1111/mve.12650,NA,NA,Daniele Da Re,dare.daniele@gmail.com,reared at 70% RH 12:12 L:D. Diet protocol: 0.012 g food/beaker on days 1 2 3 5 7 8 9 and 11,TRUE,01/01/2022
NA,NA,development time,mean duration of life stage,14.42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet type,NanoGran (non diary content),NA,NA,NA,NA,NA,NA,NA,Furth Bavaria Germany,colony,01/01/2019,1,decimal,49.47662177,10.98690831,Aedes albopictus,NA,NA,NA,96,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S5,Rau et al. 2022. Impact of larvae of the Asian tiger mosquito Aedes albopictus on larvae of the Culex pipiens complex from Germany in laboratory co-breeding studies. Journal of Medical and Veterinary Entomology 37:3,doi.org/10.1111/mve.12650,NA,NA,Daniele Da Re,dare.daniele@gmail.com,reared at 70% RH 12:12 L:D. Diet protocol: 0.012 g food/beaker on days 1 2 3 5 7 8 9 and 11,TRUE,01/01/2022
NA,NA,development rate,rate of development during life stage,0.52,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet type,TabiMin (dairy content),NA,NA,NA,NA,NA,NA,NA,Furth Bavaria Germany,colony,01/01/2019,1,decimal,49.47662177,10.98690831,Aedes albopictus,NA,NA,NA,96,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S5,Rau et al. 2022. Impact of larvae of the Asian tiger mosquito Aedes albopictus on larvae of the Culex pipiens complex from Germany in laboratory co-breeding studies. Journal of Medical and Veterinary Entomology 37:3,doi.org/10.1111/mve.12650,NA,NA,Daniele Da Re,dare.daniele@gmail.com,reared at 70% RH 12:12 L:D. Diet protocol: 0.012 g food/beaker on days 1 2 3 5 7 8 9 and 11,TRUE,01/01/2022
NA,NA,development rate,rate of development during life stage,0.8542,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet type,NanoGran (non diary content),NA,NA,NA,NA,NA,NA,NA,Furth Bavaria Germany,colony,01/01/2019,1,decimal,49.47662177,10.98690831,Aedes albopictus,NA,NA,NA,96,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S5,Rau et al. 2022. Impact of larvae of the Asian tiger mosquito Aedes albopictus on larvae of the Culex pipiens complex from Germany in laboratory co-breeding studies. Journal of Medical and Veterinary Entomology 37:3,doi.org/10.1111/mve.12650,NA,NA,Daniele Da Re,dare.daniele@gmail.com,reared at 70% RH 12:12 L:D. Diet protocol: 0.012 g food/beaker on days 1 2 3 5 7 8 9 and 11,TRUE,01/01/2022
NA,NA,wing length,average wing length,2.69,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet type,TabiMin (dairy content),NA,NA,NA,NA,NA,NA,NA,Furth Bavaria Germany,colony,01/01/2019,1,decimal,49.47662177,10.98690831,Aedes albopictus,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S5,Rau et al. 2022. Impact of larvae of the Asian tiger mosquito Aedes albopictus on larvae of the Culex pipiens complex from Germany in laboratory co-breeding studies. Journal of Medical and Veterinary Entomology 37:3,doi.org/10.1111/mve.12650,NA,NA,Daniele Da Re,dare.daniele@gmail.com,reared at 70% RH 12:12 L:D. Diet protocol: 0.012 g food/beaker on days 1 2 3 5 7 8 9 and 11,TRUE,01/01/2022
NA,NA,wing length,average wing length,2.79,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet type,NanoGran (non diary content),NA,NA,NA,NA,NA,NA,NA,Furth Bavaria Germany,colony,01/01/2019,1,decimal,49.47662177,10.98690831,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S5,Rau et al. 2022. Impact of larvae of the Asian tiger mosquito Aedes albopictus on larvae of the Culex pipiens complex from Germany in laboratory co-breeding studies. Journal of Medical and Veterinary Entomology 37:3,doi.org/10.1111/mve.12650,NA,NA,Daniele Da Re,dare.daniele@gmail.com,reared at 70% RH 12:12 L:D. Diet protocol: 0.012 g food/beaker on days 1 2 3 5 7 8 9 and 11,TRUE,01/01/2022
NA,NA,wing length,average wing length,2.22,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet type,TabiMin (dairy content),NA,NA,NA,NA,NA,NA,NA,Furth Bavaria Germany,colony,01/01/2019,1,decimal,49.47662177,10.98690831,Aedes albopictus,NA,NA,NA,34,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S5,Rau et al. 2022. Impact of larvae of the Asian tiger mosquito Aedes albopictus on larvae of the Culex pipiens complex from Germany in laboratory co-breeding studies. Journal of Medical and Veterinary Entomology 37:3,doi.org/10.1111/mve.12650,NA,NA,Daniele Da Re,dare.daniele@gmail.com,reared at 70% RH 12:12 L:D. Diet protocol: 0.012 g food/beaker on days 1 2 3 5 7 8 9 and 11,TRUE,01/01/2022
NA,NA,wing length,average wing length,2.2,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet type,NanoGran (non diary content),NA,NA,NA,NA,NA,NA,NA,Furth Bavaria Germany,colony,01/01/2019,1,decimal,49.47662177,10.98690831,Aedes albopictus,NA,NA,NA,44,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S5,Rau et al. 2022. Impact of larvae of the Asian tiger mosquito Aedes albopictus on larvae of the Culex pipiens complex from Germany in laboratory co-breeding studies. Journal of Medical and Veterinary Entomology 37:3,doi.org/10.1111/mve.12650,NA,NA,Daniele Da Re,dare.daniele@gmail.com,reared at 70% RH 12:12 L:D. Diet protocol: 0.012 g food/beaker on days 1 2 3 5 7 8 9 and 11,TRUE,01/01/2022
NA,NA,development time,mean duration of life stage,14.21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet type,TabiMin (dairy content),NA,NA,NA,NA,NA,NA,NA,Furth Bavaria Germany,colony,01/01/2019,1,decimal,49.47662177,10.98690831,Aedes albopictus,NA,NA,NA,96,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S9,Rau et al. 2022. Impact of larvae of the Asian tiger mosquito Aedes albopictus on larvae of the Culex pipiens complex from Germany in laboratory co-breeding studies. Journal of Medical and Veterinary Entomology 37:3,doi.org/10.1111/mve.12650,NA,NA,Daniele Da Re,dare.daniele@gmail.com,reared at 70% RH 12:12 L:D. Diet protocol: 0.012 g food/beaker on days 1 2 3 5 7 8 9 and 11,TRUE,01/01/2022
NA,NA,development time,mean duration of life stage,12.84,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet type,NanoGran (non diary content),NA,NA,NA,NA,NA,NA,NA,Furth Bavaria Germany,colony,01/01/2019,1,decimal,49.47662177,10.98690831,Aedes albopictus,NA,NA,NA,96,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S9,Rau et al. 2022. Impact of larvae of the Asian tiger mosquito Aedes albopictus on larvae of the Culex pipiens complex from Germany in laboratory co-breeding studies. Journal of Medical and Veterinary Entomology 37:3,doi.org/10.1111/mve.12650,NA,NA,Daniele Da Re,dare.daniele@gmail.com,reared at 70% RH 12:12 L:D. Diet protocol: 0.012 g food/beaker on days 1 2 3 5 7 8 9 and 11,TRUE,01/01/2022
NA,NA,development rate,rate of development during life stage,0.7222,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet type,TabiMin (dairy content),NA,NA,NA,NA,NA,NA,NA,Furth Bavaria Germany,colony,01/01/2019,1,decimal,49.47662177,10.98690831,Aedes albopictus,NA,NA,NA,96,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S9,Rau et al. 2022. Impact of larvae of the Asian tiger mosquito Aedes albopictus on larvae of the Culex pipiens complex from Germany in laboratory co-breeding studies. Journal of Medical and Veterinary Entomology 37:3,doi.org/10.1111/mve.12650,NA,NA,Daniele Da Re,dare.daniele@gmail.com,reared at 70% RH 12:12 L:D. Diet protocol: 0.012 g food/beaker on days 1 2 3 5 7 8 9 and 11,TRUE,01/01/2022
NA,NA,development rate,rate of development during life stage,0.8646,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet type,NanoGran (non diary content),NA,NA,NA,NA,NA,NA,NA,Furth Bavaria Germany,colony,01/01/2019,1,decimal,49.47662177,10.98690831,Aedes albopictus,NA,NA,NA,96,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S9,Rau et al. 2022. Impact of larvae of the Asian tiger mosquito Aedes albopictus on larvae of the Culex pipiens complex from Germany in laboratory co-breeding studies. Journal of Medical and Veterinary Entomology 37:3,doi.org/10.1111/mve.12650,NA,NA,Daniele Da Re,dare.daniele@gmail.com,reared at 70% RH 12:12 L:D. Diet protocol: 0.012 g food/beaker on days 1 2 3 5 7 8 9 and 11,TRUE,01/01/2022
NA,NA,wing length,average wing length,2.91,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet type,TabiMin (dairy content),NA,NA,NA,NA,NA,NA,NA,Furth Bavaria Germany,colony,01/01/2019,1,decimal,49.47662177,10.98690831,Aedes albopictus,NA,NA,NA,28,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S9,Rau et al. 2022. Impact of larvae of the Asian tiger mosquito Aedes albopictus on larvae of the Culex pipiens complex from Germany in laboratory co-breeding studies. Journal of Medical and Veterinary Entomology 37:3,doi.org/10.1111/mve.12650,NA,NA,Daniele Da Re,dare.daniele@gmail.com,reared at 70% RH 12:12 L:D. Diet protocol: 0.012 g food/beaker on days 1 2 3 5 7 8 9 and 11,TRUE,01/01/2022
NA,NA,wing length,average wing length,2.76,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet type,NanoGran (non diary content),NA,NA,NA,NA,NA,NA,NA,Furth Bavaria Germany,colony,01/01/2019,1,decimal,49.47662177,10.98690831,Aedes albopictus,NA,NA,NA,20,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S9,Rau et al. 2022. Impact of larvae of the Asian tiger mosquito Aedes albopictus on larvae of the Culex pipiens complex from Germany in laboratory co-breeding studies. Journal of Medical and Veterinary Entomology 37:3,doi.org/10.1111/mve.12650,NA,NA,Daniele Da Re,dare.daniele@gmail.com,reared at 70% RH 12:12 L:D. Diet protocol: 0.012 g food/beaker on days 1 2 3 5 7 8 9 and 11,TRUE,01/01/2022
NA,NA,wing length,average wing length,2.36,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet type,TabiMin (dairy content),NA,NA,NA,NA,NA,NA,NA,Furth Bavaria Germany,colony,01/01/2019,1,decimal,49.47662177,10.98690831,Aedes albopictus,NA,NA,NA,21,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S9,Rau et al. 2022. Impact of larvae of the Asian tiger mosquito Aedes albopictus on larvae of the Culex pipiens complex from Germany in laboratory co-breeding studies. Journal of Medical and Veterinary Entomology 37:3,doi.org/10.1111/mve.12650,NA,NA,Daniele Da Re,dare.daniele@gmail.com,reared at 70% RH 12:12 L:D. Diet protocol: 0.012 g food/beaker on days 1 2 3 5 7 8 9 and 11,TRUE,01/01/2022
NA,NA,wing length,average wing length,2.27,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet type,NanoGran (non diary content),NA,NA,NA,NA,NA,NA,NA,Furth Bavaria Germany,colony,01/01/2019,1,decimal,49.47662177,10.98690831,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S9,Rau et al. 2022. Impact of larvae of the Asian tiger mosquito Aedes albopictus on larvae of the Culex pipiens complex from Germany in laboratory co-breeding studies. Journal of Medical and Veterinary Entomology 37:3,doi.org/10.1111/mve.12650,NA,NA,Daniele Da Re,dare.daniele@gmail.com,reared at 70% RH 12:12 L:D. Diet protocol: 0.012 g food/beaker on days 1 2 3 5 7 8 9 and 11,TRUE,01/01/2022
NA,NA,development time,mean duration of life stage,10.09,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet type,TabiMin (dairy content),NA,NA,NA,NA,NA,NA,NA,Furth Bavaria Germany,colony,01/01/2019,1,decimal,49.47662177,10.98690831,Aedes albopictus,NA,NA,NA,96,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S9,Rau et al. 2022. Impact of larvae of the Asian tiger mosquito Aedes albopictus on larvae of the Culex pipiens complex from Germany in laboratory co-breeding studies. Journal of Medical and Veterinary Entomology 37:3,doi.org/10.1111/mve.12650,NA,NA,Daniele Da Re,dare.daniele@gmail.com,reared at 70% RH 12:12 L:D. Diet protocol: 0.012 g food/beaker on days 1 2 3 5 7 8 9 and 11,TRUE,01/01/2022
NA,NA,development time,mean duration of life stage,10.74,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet type,NanoGran (non diary content),NA,NA,NA,NA,NA,NA,NA,Furth Bavaria Germany,colony,01/01/2019,1,decimal,49.47662177,10.98690831,Aedes albopictus,NA,NA,NA,96,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S9,Rau et al. 2022. Impact of larvae of the Asian tiger mosquito Aedes albopictus on larvae of the Culex pipiens complex from Germany in laboratory co-breeding studies. Journal of Medical and Veterinary Entomology 37:3,doi.org/10.1111/mve.12650,NA,NA,Daniele Da Re,dare.daniele@gmail.com,reared at 70% RH 12:12 L:D. Diet protocol: 0.012 g food/beaker on days 1 2 3 5 7 8 9 and 11,TRUE,01/01/2022
NA,NA,development rate,rate of development during life stage,0.8958,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet type,TabiMin (dairy content),NA,NA,NA,NA,NA,NA,NA,Furth Bavaria Germany,colony,01/01/2019,1,decimal,49.47662177,10.98690831,Aedes albopictus,NA,NA,NA,96,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S9,Rau et al. 2022. Impact of larvae of the Asian tiger mosquito Aedes albopictus on larvae of the Culex pipiens complex from Germany in laboratory co-breeding studies. Journal of Medical and Veterinary Entomology 37:3,doi.org/10.1111/mve.12650,NA,NA,Daniele Da Re,dare.daniele@gmail.com,reared at 70% RH 12:12 L:D. Diet protocol: 0.012 g food/beaker on days 1 2 3 5 7 8 9 and 11,TRUE,01/01/2022
NA,NA,development rate,rate of development during life stage,0.7604,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet type,NanoGran (non diary content),NA,NA,NA,NA,NA,NA,NA,Furth Bavaria Germany,colony,01/01/2019,1,decimal,49.47662177,10.98690831,Aedes albopictus,NA,NA,NA,96,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S9,Rau et al. 2022. Impact of larvae of the Asian tiger mosquito Aedes albopictus on larvae of the Culex pipiens complex from Germany in laboratory co-breeding studies. Journal of Medical and Veterinary Entomology 37:3,doi.org/10.1111/mve.12650,NA,NA,Daniele Da Re,dare.daniele@gmail.com,reared at 70% RH 12:12 L:D. Diet protocol: 0.012 g food/beaker on days 1 2 3 5 7 8 9 and 11,TRUE,01/01/2022
NA,NA,wing length,average wing length,2.56,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet type,TabiMin (dairy content),NA,NA,NA,NA,NA,NA,NA,Furth Bavaria Germany,colony,01/01/2019,1,decimal,49.47662177,10.98690831,Aedes albopictus,NA,NA,NA,39,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S9,Rau et al. 2022. Impact of larvae of the Asian tiger mosquito Aedes albopictus on larvae of the Culex pipiens complex from Germany in laboratory co-breeding studies. Journal of Medical and Veterinary Entomology 37:3,doi.org/10.1111/mve.12650,NA,NA,Daniele Da Re,dare.daniele@gmail.com,reared at 70% RH 12:12 L:D. Diet protocol: 0.012 g food/beaker on days 1 2 3 5 7 8 9 and 11,TRUE,01/01/2022
NA,NA,wing length,average wing length,2.37,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet type,NanoGran (non diary content),NA,NA,NA,NA,NA,NA,NA,Furth Bavaria Germany,colony,01/01/2019,1,decimal,49.47662177,10.98690831,Aedes albopictus,NA,NA,NA,36,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S9,Rau et al. 2022. Impact of larvae of the Asian tiger mosquito Aedes albopictus on larvae of the Culex pipiens complex from Germany in laboratory co-breeding studies. Journal of Medical and Veterinary Entomology 37:3,doi.org/10.1111/mve.12650,NA,NA,Daniele Da Re,dare.daniele@gmail.com,reared at 70% RH 12:12 L:D. Diet protocol: 0.012 g food/beaker on days 1 2 3 5 7 8 9 and 11,TRUE,01/01/2022
NA,NA,wing length,average wing length,2.19,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet type,TabiMin (dairy content),NA,NA,NA,NA,NA,NA,NA,Furth Bavaria Germany,colony,01/01/2019,1,decimal,49.47662177,10.98690831,Aedes albopictus,NA,NA,NA,43,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S9,Rau et al. 2022. Impact of larvae of the Asian tiger mosquito Aedes albopictus on larvae of the Culex pipiens complex from Germany in laboratory co-breeding studies. Journal of Medical and Veterinary Entomology 37:3,doi.org/10.1111/mve.12650,NA,NA,Daniele Da Re,dare.daniele@gmail.com,reared at 70% RH 12:12 L:D. Diet protocol: 0.012 g food/beaker on days 1 2 3 5 7 8 9 and 11,TRUE,01/01/2022
NA,NA,wing length,average wing length,2,mm,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval diet type,NanoGran (non diary content),NA,NA,NA,NA,NA,NA,NA,Furth Bavaria Germany,colony,01/01/2019,1,decimal,49.47662177,10.98690831,Aedes albopictus,NA,NA,NA,31,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table S9,Rau et al. 2022. Impact of larvae of the Asian tiger mosquito Aedes albopictus on larvae of the Culex pipiens complex from Germany in laboratory co-breeding studies. Journal of Medical and Veterinary Entomology 37:3,doi.org/10.1111/mve.12650,NA,NA,Daniele Da Re,dare.daniele@gmail.com,reared at 70% RH 12:12 L:D. Diet protocol: 0.012 g food/beaker on days 1 2 3 5 7 8 9 and 11,TRUE,01/01/2022
NA,NA,hatching rate,median proportion of eggs hatching (number of larvae observed divided by the number of initial viable eggs),0,proportion,NA,NA,IQR,NA,NA,terrestrial,laboratory,NA,NA,24,NA,Celsius,12,hours,NA,NA,NA,NA,NA,NA,NA,NA,NA,Resistencia Argentina,field,NA,0,decimal,-27.450217,58.992772,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,7.6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Campos et al. 2021. Differential inhibition of egg hatching in Aedes aegypti populations from localities with different winter conditions. Bull Entomol Res 111:3,10.1017/S0007485320000681,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 eggs were used in the experiments. Between 6 and 10 replicates (substrate with 7�135 eggs from the same female) were assigned to each treatment combination,TRUE,01/01/2021
NA,NA,hatching rate,median proportion of eggs hatching (number of larvae observed divided by the number of initial viable eggs),0,proportion,NA,NA,IQR,NA,NA,terrestrial,laboratory,NA,NA,24,NA,Celsius,12,hours,NA,NA,NA,NA,NA,NA,NA,NA,NA,Resistencia Argentina,field,NA,0,decimal,-27.450217,58.992772,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,10.3,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Campos et al. 2021. Differential inhibition of egg hatching in Aedes aegypti populations from localities with different winter conditions. Bull Entomol Res 111:3,10.1017/S0007485320000681,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 eggs were used in the experiments. Between 6 and 10 replicates (substrate with 7�135 eggs from the same female) were assigned to each treatment combination,TRUE,01/01/2021
NA,NA,hatching rate,median proportion of eggs hatching (number of larvae observed divided by the number of initial viable eggs),0,proportion,0.027,0,IQR,NA,NA,terrestrial,laboratory,NA,NA,24,NA,Celsius,12,hours,NA,NA,NA,NA,NA,NA,NA,NA,NA,Resistencia Argentina,field,NA,0,decimal,-27.450217,58.992772,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,11.8,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Campos et al. 2021. Differential inhibition of egg hatching in Aedes aegypti populations from localities with different winter conditions. Bull Entomol Res 111:3,10.1017/S0007485320000681,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 eggs were used in the experiments. Between 6 and 10 replicates (substrate with 7�135 eggs from the same female) were assigned to each treatment combination,TRUE,01/01/2021
NA,NA,hatching rate,median proportion of eggs hatching (number of larvae observed divided by the number of initial viable eggs),0,proportion,0.547,0,IQR,NA,NA,terrestrial,laboratory,NA,NA,24,NA,Celsius,12,hours,NA,NA,NA,NA,NA,NA,NA,NA,NA,Resistencia Argentina,field,NA,0,decimal,-27.450217,58.992772,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,14.1,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Campos et al. 2021. Differential inhibition of egg hatching in Aedes aegypti populations from localities with different winter conditions. Bull Entomol Res 111:3,10.1017/S0007485320000681,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 eggs were used in the experiments. Between 6 and 10 replicates (substrate with 7�135 eggs from the same female) were assigned to each treatment combination,TRUE,01/01/2021
NA,NA,hatching rate,median proportion of eggs hatching (number of larvae observed divided by the number of initial viable eggs),0,proportion,0,0,IQR,NA,NA,terrestrial,laboratory,NA,NA,24,NA,Celsius,12,hours,NA,NA,NA,NA,NA,NA,NA,NA,NA,Resistencia Argentina,field,NA,0,decimal,-27.450217,58.992772,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,16.1,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Campos et al. 2021. Differential inhibition of egg hatching in Aedes aegypti populations from localities with different winter conditions. Bull Entomol Res 111:3,10.1017/S0007485320000681,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 eggs were used in the experiments. Between 6 and 10 replicates (substrate with 7�135 eggs from the same female) were assigned to each treatment combination,TRUE,01/01/2021
NA,NA,hatching rate,median proportion of eggs hatching (number of larvae observed divided by the number of initial viable eggs),0,proportion,NA,NA,IQR,NA,NA,terrestrial,laboratory,NA,NA,24,NA,Celsius,12,hours,NA,NA,NA,NA,NA,NA,NA,NA,NA,Buenos Aires Argentina,field,NA,0,decimal,-34.603683,-58.381558,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,7.6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Campos et al. 2021. Differential inhibition of egg hatching in Aedes aegypti populations from localities with different winter conditions. Bull Entomol Res 111:3,10.1017/S0007485320000681,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 eggs were used in the experiments. Between 6 and 10 replicates (substrate with 7�135 eggs from the same female) were assigned to each treatment combination,TRUE,01/01/2021
NA,NA,hatching rate,median proportion of eggs hatching (number of larvae observed divided by the number of initial viable eggs),0,proportion,NA,NA,IQR,NA,NA,terrestrial,laboratory,NA,NA,24,NA,Celsius,12,hours,NA,NA,NA,NA,NA,NA,NA,NA,NA,Buenos Aires Argentina,field,NA,0,decimal,-34.603683,-58.381558,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,10.3,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Campos et al. 2021. Differential inhibition of egg hatching in Aedes aegypti populations from localities with different winter conditions. Bull Entomol Res 111:3,10.1017/S0007485320000681,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 eggs were used in the experiments. Between 6 and 10 replicates (substrate with 7�135 eggs from the same female) were assigned to each treatment combination,TRUE,01/01/2021
NA,NA,hatching rate,median proportion of eggs hatching (number of larvae observed divided by the number of initial viable eggs),0.001859,proportion,0.028,0,IQR,NA,NA,terrestrial,laboratory,NA,NA,24,NA,Celsius,12,hours,NA,NA,NA,NA,NA,NA,NA,NA,NA,Buenos Aires Argentina,field,NA,0,decimal,-34.603683,-58.381558,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,11.8,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Campos et al. 2021. Differential inhibition of egg hatching in Aedes aegypti populations from localities with different winter conditions. Bull Entomol Res 111:3,10.1017/S0007485320000681,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 eggs were used in the experiments. Between 6 and 10 replicates (substrate with 7�135 eggs from the same female) were assigned to each treatment combination,TRUE,01/01/2021
NA,NA,hatching rate,median proportion of eggs hatching (number of larvae observed divided by the number of initial viable eggs),0.098513,proportion,0.366,0.007,IQR,NA,NA,terrestrial,laboratory,NA,NA,24,NA,Celsius,12,hours,NA,NA,NA,NA,NA,NA,NA,NA,NA,Buenos Aires Argentina,field,NA,0,decimal,-34.603683,-58.381558,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,14.1,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Campos et al. 2021. Differential inhibition of egg hatching in Aedes aegypti populations from localities with different winter conditions. Bull Entomol Res 111:3,10.1017/S0007485320000681,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 eggs were used in the experiments. Between 6 and 10 replicates (substrate with 7�135 eggs from the same female) were assigned to each treatment combination,TRUE,01/01/2021
NA,NA,hatching rate,median proportion of eggs hatching (number of larvae observed divided by the number of initial viable eggs),0.003717,proportion,NA,NA,IQR,NA,NA,terrestrial,laboratory,NA,NA,24,NA,Celsius,12,hours,NA,NA,NA,NA,NA,NA,NA,NA,NA,Buenos Aires Argentina,field,NA,0,decimal,-34.603683,-58.381558,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,16.1,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Campos et al. 2021. Differential inhibition of egg hatching in Aedes aegypti populations from localities with different winter conditions. Bull Entomol Res 111:3,10.1017/S0007485320000681,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 eggs were used in the experiments. Between 6 and 10 replicates (substrate with 7�135 eggs from the same female) were assigned to each treatment combination,TRUE,01/01/2021
NA,NA,hatching rate,median proportion of eggs hatching (number of larvae observed divided by the number of initial viable eggs),0.001316,proportion,NA,NA,IQR,NA,NA,terrestrial,laboratory,NA,NA,24,NA,Celsius,12,hours,NA,NA,NA,NA,NA,NA,NA,NA,NA,San Bernardo Argentina,field,NA,0,decimal,-34.686367,-56.679197,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,7.6,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Campos et al. 2021. Differential inhibition of egg hatching in Aedes aegypti populations from localities with different winter conditions. Bull Entomol Res 111:3,10.1017/S0007485320000681,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 eggs were used in the experiments. Between 6 and 10 replicates (substrate with 7�135 eggs from the same female) were assigned to each treatment combination,TRUE,01/01/2021
NA,NA,hatching rate,median proportion of eggs hatching (number of larvae observed divided by the number of initial viable eggs),0.003947,proportion,0.024,0.004,IQR,NA,NA,terrestrial,laboratory,NA,NA,24,NA,Celsius,12,hours,NA,NA,NA,NA,NA,NA,NA,NA,NA,San Bernardo Argentina,field,NA,0,decimal,-34.686367,-56.679197,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,10.3,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Campos et al. 2021. Differential inhibition of egg hatching in Aedes aegypti populations from localities with different winter conditions. Bull Entomol Res 111:3,10.1017/S0007485320000681,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 eggs were used in the experiments. Between 6 and 10 replicates (substrate with 7�135 eggs from the same female) were assigned to each treatment combination,TRUE,01/01/2021
NA,NA,hatching rate,median proportion of eggs hatching (number of larvae observed divided by the number of initial viable eggs),0.001316,proportion,NA,NA,IQR,NA,NA,terrestrial,laboratory,NA,NA,24,NA,Celsius,12,hours,NA,NA,NA,NA,NA,NA,NA,NA,NA,San Bernardo Argentina,field,NA,0,decimal,-34.686367,-56.679197,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,11.8,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Campos et al. 2021. Differential inhibition of egg hatching in Aedes aegypti populations from localities with different winter conditions. Bull Entomol Res 111:3,10.1017/S0007485320000681,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 eggs were used in the experiments. Between 6 and 10 replicates (substrate with 7�135 eggs from the same female) were assigned to each treatment combination,TRUE,01/01/2021
NA,NA,hatching rate,median proportion of eggs hatching (number of larvae observed divided by the number of initial viable eggs),0.006579,proportion,NA,NA,IQR,NA,NA,terrestrial,laboratory,NA,NA,24,NA,Celsius,12,hours,NA,NA,NA,NA,NA,NA,NA,NA,NA,San Bernardo Argentina,field,NA,0,decimal,-34.686367,-56.679197,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,14.1,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Campos et al. 2021. Differential inhibition of egg hatching in Aedes aegypti populations from localities with different winter conditions. Bull Entomol Res 111:3,10.1017/S0007485320000681,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 eggs were used in the experiments. Between 6 and 10 replicates (substrate with 7�135 eggs from the same female) were assigned to each treatment combination,TRUE,01/01/2021
NA,NA,hatching rate,median proportion of eggs hatching (number of larvae observed divided by the number of initial viable eggs),0.005263,proportion,0.426,0.007,IQR,NA,NA,terrestrial,laboratory,NA,NA,24,NA,Celsius,12,hours,NA,NA,NA,NA,NA,NA,NA,NA,NA,San Bernardo Argentina,field,NA,0,decimal,-34.686367,-56.679197,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,egg,NA,16.1,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3,Campos et al. 2021. Differential inhibition of egg hatching in Aedes aegypti populations from localities with different winter conditions. Bull Entomol Res 111:3,10.1017/S0007485320000681,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 eggs were used in the experiments. Between 6 and 10 replicates (substrate with 7�135 eggs from the same female) were assigned to each treatment combination,TRUE,01/01/2021
NA,NA,development time,mean number of days from L1 to adult emergence,22.328,days,1.81,1.81,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,parental photoperiod,exposure to daylight hours per day,10,hours,01/03/2017,01/04/2017,NA,NA,NA,Buenos Aires Argentina,field,01/03/2017,4,decimal,-34.58333333,-58.48333333,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Loetti et al. 2021. Effect of Parental Photoperiod on Body Size and Developmental Time of Aedes aegypti (Diptera: Culicidae) in Buenos Aires City. Journal of Medical Entomology 58:4,10.1093/jme/tjab026,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 generation used. the photoperiod in the secondstressor refers to the photoperiod at which the parental generation was exposed,TRUE,01/01/2021
NA,NA,development time,mean number of days from L1 to adult emergence,24.966,days,5.897,5.897,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,parental photoperiod,exposure to daylight hours per day,14,hours,01/03/2017,01/04/2017,NA,NA,NA,Buenos Aires Argentina,field,01/03/2017,4,decimal,-34.58333333,-58.48333333,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Loetti et al. 2021. Effect of Parental Photoperiod on Body Size and Developmental Time of Aedes aegypti (Diptera: Culicidae) in Buenos Aires City. Journal of Medical Entomology 58:4,10.1093/jme/tjab026,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 generation used. the photoperiod in the secondstressor refers to the photoperiod at which the parental generation was exposed,TRUE,01/01/2021
NA,NA,development time,mean number of days from L1 to adult emergence,10.897,days,0.569,0.569,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,parental photoperiod,exposure to daylight hours per day,10,hours,01/03/2017,01/04/2017,NA,NA,NA,Buenos Aires Argentina,field,01/03/2017,4,decimal,-34.58333333,-58.48333333,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to adult,female,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Loetti et al. 2021. Effect of Parental Photoperiod on Body Size and Developmental Time of Aedes aegypti (Diptera: Culicidae) in Buenos Aires City. Journal of Medical Entomology 58:4,10.1093/jme/tjab026,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 generation used. the photoperiod in the secondstressor refers to the photoperiod at which the parental generation was exposed,TRUE,01/01/2021
NA,NA,development time,mean number of days from L1 to adult emergence,16.793,days,4.759,4.759,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,parental photoperiod,exposure to daylight hours per day,14,hours,01/03/2017,01/04/2017,NA,NA,NA,Buenos Aires Argentina,field,01/03/2017,4,decimal,-34.58333333,-58.48333333,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to adult,female,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Loetti et al. 2021. Effect of Parental Photoperiod on Body Size and Developmental Time of Aedes aegypti (Diptera: Culicidae) in Buenos Aires City. Journal of Medical Entomology 58:4,10.1093/jme/tjab026,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 generation used. the photoperiod in the secondstressor refers to the photoperiod at which the parental generation was exposed,TRUE,01/01/2021
NA,NA,development time,mean number of days from L1 to adult emergence,18.552,days,1.914,1.914,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,parental photoperiod,exposure to daylight hours per day,10,hours,01/03/2017,01/04/2017,NA,NA,NA,Buenos Aires Argentina,field,01/03/2017,4,decimal,-34.58333333,-58.48333333,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to adult,male,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Loetti et al. 2021. Effect of Parental Photoperiod on Body Size and Developmental Time of Aedes aegypti (Diptera: Culicidae) in Buenos Aires City. Journal of Medical Entomology 58:4,10.1093/jme/tjab026,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 generation used. the photoperiod in the secondstressor refers to the photoperiod at which the parental generation was exposed,TRUE,01/01/2021
NA,NA,development time,mean number of days from L1 to adult emergence,20.931,days,1.966,1.966,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,parental photoperiod,exposure to daylight hours per day,14,hours,01/03/2017,01/04/2017,NA,NA,NA,Buenos Aires Argentina,field,01/03/2017,4,decimal,-34.58333333,-58.48333333,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to adult,male,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Loetti et al. 2021. Effect of Parental Photoperiod on Body Size and Developmental Time of Aedes aegypti (Diptera: Culicidae) in Buenos Aires City. Journal of Medical Entomology 58:4,10.1093/jme/tjab026,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 generation used. the photoperiod in the secondstressor refers to the photoperiod at which the parental generation was exposed,TRUE,01/01/2021
NA,NA,development time,mean number of days from L1 to adult emergence,10.638,days,2.172,2.172,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,parental photoperiod,exposure to daylight hours per day,10,hours,01/03/2017,01/04/2017,NA,NA,NA,Buenos Aires Argentina,field,01/03/2017,4,decimal,-34.58333333,-58.48333333,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to adult,male,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Loetti et al. 2021. Effect of Parental Photoperiod on Body Size and Developmental Time of Aedes aegypti (Diptera: Culicidae) in Buenos Aires City. Journal of Medical Entomology 58:4,10.1093/jme/tjab026,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 generation used. the photoperiod in the secondstressor refers to the photoperiod at which the parental generation was exposed,TRUE,01/01/2021
NA,NA,development time,mean number of days from L1 to adult emergence,12.603,days,3.931,3.931,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,parental photoperiod,exposure to daylight hours per day,14,hours,01/03/2017,01/04/2017,NA,NA,NA,Buenos Aires Argentina,field,01/03/2017,4,decimal,-34.58333333,-58.48333333,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to adult,male,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Loetti et al. 2021. Effect of Parental Photoperiod on Body Size and Developmental Time of Aedes aegypti (Diptera: Culicidae) in Buenos Aires City. Journal of Medical Entomology 58:4,10.1093/jme/tjab026,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 generation used. the photoperiod in the secondstressor refers to the photoperiod at which the parental generation was exposed,TRUE,01/01/2021
NA,NA,wing length,wing length,3.082,mm,0.111,0.111,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,parental photoperiod,exposure to daylight hours per day,10,hours,01/03/2017,01/04/2017,NA,NA,NA,Buenos Aires Argentina,field,01/03/2017,4,decimal,-34.58333333,-58.48333333,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Loetti et al. 2021. Effect of Parental Photoperiod on Body Size and Developmental Time of Aedes aegypti (Diptera: Culicidae) in Buenos Aires City. Journal of Medical Entomology 58:4,10.1093/jme/tjab026,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 generation used. the photoperiod in the secondstressor refers to the photoperiod at which the parental generation was exposed,TRUE,01/01/2021
NA,NA,wing length,wing length,3.096,mm,0.165,0.165,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,parental photoperiod,exposure to daylight hours per day,14,hours,01/03/2017,01/04/2017,NA,NA,NA,Buenos Aires Argentina,field,01/03/2017,4,decimal,-34.58333333,-58.48333333,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to adult,female,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Loetti et al. 2021. Effect of Parental Photoperiod on Body Size and Developmental Time of Aedes aegypti (Diptera: Culicidae) in Buenos Aires City. Journal of Medical Entomology 58:4,10.1093/jme/tjab026,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 generation used. the photoperiod in the secondstressor refers to the photoperiod at which the parental generation was exposed,TRUE,01/01/2021
NA,NA,wing length,wing length,2.371,mm,0.139,0.139,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,parental photoperiod,exposure to daylight hours per day,10,hours,01/03/2017,01/04/2017,NA,NA,NA,Buenos Aires Argentina,field,01/03/2017,4,decimal,-34.58333333,-58.48333333,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to adult,female,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Loetti et al. 2021. Effect of Parental Photoperiod on Body Size and Developmental Time of Aedes aegypti (Diptera: Culicidae) in Buenos Aires City. Journal of Medical Entomology 58:4,10.1093/jme/tjab026,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 generation used. the photoperiod in the secondstressor refers to the photoperiod at which the parental generation was exposed,TRUE,01/01/2021
NA,NA,wing length,wing length,2.63,mm,0.256,0.256,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,parental photoperiod,exposure to daylight hours per day,14,hours,01/03/2017,01/04/2017,NA,NA,NA,Buenos Aires Argentina,field,01/03/2017,4,decimal,-34.58333333,-58.48333333,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to adult,female,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Loetti et al. 2021. Effect of Parental Photoperiod on Body Size and Developmental Time of Aedes aegypti (Diptera: Culicidae) in Buenos Aires City. Journal of Medical Entomology 58:4,10.1093/jme/tjab026,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 generation used. the photoperiod in the secondstressor refers to the photoperiod at which the parental generation was exposed,TRUE,01/01/2021
NA,NA,wing length,wing length,2.442,mm,0.151,0.151,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,parental photoperiod,exposure to daylight hours per day,10,hours,01/03/2017,01/04/2017,NA,NA,NA,Buenos Aires Argentina,field,01/03/2017,4,decimal,-34.58333333,-58.48333333,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to adult,male,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Loetti et al. 2021. Effect of Parental Photoperiod on Body Size and Developmental Time of Aedes aegypti (Diptera: Culicidae) in Buenos Aires City. Journal of Medical Entomology 58:4,10.1093/jme/tjab026,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 generation used. the photoperiod in the secondstressor refers to the photoperiod at which the parental generation was exposed,TRUE,01/01/2021
NA,NA,wing length,wing length,2.545,mm,0.091,0.091,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,parental photoperiod,exposure to daylight hours per day,14,hours,01/03/2017,01/04/2017,NA,NA,NA,Buenos Aires Argentina,field,01/03/2017,4,decimal,-34.58333333,-58.48333333,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to adult,male,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Loetti et al. 2021. Effect of Parental Photoperiod on Body Size and Developmental Time of Aedes aegypti (Diptera: Culicidae) in Buenos Aires City. Journal of Medical Entomology 58:4,10.1093/jme/tjab026,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 generation used. the photoperiod in the secondstressor refers to the photoperiod at which the parental generation was exposed,TRUE,01/01/2021
NA,NA,wing length,wing length,2.03,mm,0.193,0.193,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,parental photoperiod,exposure to daylight hours per day,10,hours,01/03/2017,01/04/2017,NA,NA,NA,Buenos Aires Argentina,field,01/03/2017,4,decimal,-34.58333333,-58.48333333,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to adult,male,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Loetti et al. 2021. Effect of Parental Photoperiod on Body Size and Developmental Time of Aedes aegypti (Diptera: Culicidae) in Buenos Aires City. Journal of Medical Entomology 58:4,10.1093/jme/tjab026,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 generation used. the photoperiod in the secondstressor refers to the photoperiod at which the parental generation was exposed,TRUE,01/01/2021
NA,NA,wing length,wing length,2.09,mm,0.099,0.099,sd,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,parental photoperiod,exposure to daylight hours per day,14,hours,01/03/2017,01/04/2017,NA,NA,NA,Buenos Aires Argentina,field,01/03/2017,4,decimal,-34.58333333,-58.48333333,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to adult,male,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Loetti et al. 2021. Effect of Parental Photoperiod on Body Size and Developmental Time of Aedes aegypti (Diptera: Culicidae) in Buenos Aires City. Journal of Medical Entomology 58:4,10.1093/jme/tjab026,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 generation used. the photoperiod in the secondstressor refers to the photoperiod at which the parental generation was exposed,TRUE,01/01/2021
NA,NA,survival,total number of adults divided by total number of L1 at the beginning of the experiment.,0.77,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,parental photoperiod,exposure to daylight hours per day,10,hours,01/03/2017,01/04/2017,NA,NA,NA,Buenos Aires Argentina,field,01/03/2017,4,decimal,-34.58333333,-58.48333333,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to adult,NA,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,text in the results,Loetti et al. 2021. Effect of Parental Photoperiod on Body Size and Developmental Time of Aedes aegypti (Diptera: Culicidae) in Buenos Aires City. Journal of Medical Entomology 58:4,10.1093/jme/tjab026,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 generation used. the photoperiod in the secondstressor refers to the photoperiod at which the parental generation was exposed,TRUE,01/01/2021
NA,NA,survival,total number of adults divided by total number of L1 at the beginning of the experiment.,0.92,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,parental photoperiod,exposure to daylight hours per day,10,hours,01/03/2017,01/04/2017,NA,NA,NA,Buenos Aires Argentina,field,01/03/2017,4,decimal,-34.58333333,-58.48333333,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to adult,NA,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,text in the results,Loetti et al. 2021. Effect of Parental Photoperiod on Body Size and Developmental Time of Aedes aegypti (Diptera: Culicidae) in Buenos Aires City. Journal of Medical Entomology 58:4,10.1093/jme/tjab026,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 generation used. the photoperiod in the secondstressor refers to the photoperiod at which the parental generation was exposed,TRUE,01/01/2021
NA,NA,survival,total number of adults divided by total number of L1 at the beginning of the experiment.,0.83,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,parental photoperiod,exposure to daylight hours per day,14,hours,01/03/2017,01/04/2017,NA,NA,NA,Buenos Aires Argentina,field,01/03/2017,4,decimal,-34.58333333,-58.48333333,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to adult,NA,23,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,text in the results,Loetti et al. 2021. Effect of Parental Photoperiod on Body Size and Developmental Time of Aedes aegypti (Diptera: Culicidae) in Buenos Aires City. Journal of Medical Entomology 58:4,10.1093/jme/tjab026,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 generation used. the photoperiod in the secondstressor refers to the photoperiod at which the parental generation was exposed,TRUE,01/01/2021
NA,NA,survival,total number of adults divided by total number of L1 at the beginning of the experiment.,0.83,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,12,hours,parental photoperiod,exposure to daylight hours per day,14,hours,01/03/2017,01/04/2017,NA,NA,NA,Buenos Aires Argentina,field,01/03/2017,4,decimal,-34.58333333,-58.48333333,Aedes aegypti,NA,NA,NA,25,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1 to adult,NA,17,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,text in the results,Loetti et al. 2021. Effect of Parental Photoperiod on Body Size and Developmental Time of Aedes aegypti (Diptera: Culicidae) in Buenos Aires City. Journal of Medical Entomology 58:4,10.1093/jme/tjab026,NA,NA,Daniele Da Re,dare.daniele@gmail.com,F1 generation used. the photoperiod in the secondstressor refers to the photoperiod at which the parental generation was exposed,TRUE,01/01/2021
NA,NA,development time,mean number of days from hatching to adult eclosion as a function of insecticide exposure and Wolbachia infection (see notes),10.655,days,0.357,0.357,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Uninfected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,development time,mean number of days from hatching to adult eclosion as a function of insecticide exposure and Wolbachia infection (see notes),8.661,days,0.387,0.387,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Infected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,development time,mean number of days from hatching to adult eclosion as a function of insecticide exposure and Wolbachia infection (see notes),10.685,days,0.387,0.387,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0017,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Uninfected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,development time,mean number of days from hatching to adult eclosion as a function of insecticide exposure and Wolbachia infection (see notes),8.69,days,0.417,0.417,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0017,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Infected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,development time,mean number of days from hatching to adult eclosion as a function of insecticide exposure and Wolbachia infection (see notes),10.685,days,0.298,0.298,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0033,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Uninfected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,development time,mean number of days from hatching to adult eclosion as a function of insecticide exposure and Wolbachia infection (see notes),8.393,days,0.298,0.298,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0033,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Infected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,development time,mean number of days from hatching to adult eclosion as a function of insecticide exposure and Wolbachia infection (see notes),10.625,days,0.417,0.417,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0067,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Uninfected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,development time,mean number of days from hatching to adult eclosion as a function of insecticide exposure and Wolbachia infection (see notes),8.363,days,0.298,0.298,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0067,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Infected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,development time,mean number of days from hatching to adult eclosion as a function of insecticide exposure and Wolbachia infection (see notes),10.714,days,0.298,0.298,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0133,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Uninfected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,development time,mean number of days from hatching to adult eclosion as a function of insecticide exposure and Wolbachia infection (see notes),8.393,days,0.208,0.208,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0133,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Infected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,development time,mean number of days from hatching to adult eclosion as a function of insecticide exposure and Wolbachia infection (see notes),10.655,days,0.298,0.298,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0167,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Uninfected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,development time,mean number of days from hatching to adult eclosion as a function of insecticide exposure and Wolbachia infection (see notes),8.363,days,0.327,0.327,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0167,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1a,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Infected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,development time,mean number of days from hatching to adult eclosion as a function of insecticide exposure and Wolbachia infection (see notes),7.671,days,0.341,0.341,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,37,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Uninfected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,development time,mean number of days from hatching to adult eclosion as a function of insecticide exposure and Wolbachia infection (see notes),5.683,days,0.301,0.301,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,37,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Infected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,development time,mean number of days from hatching to adult eclosion as a function of insecticide exposure and Wolbachia infection (see notes),7.691,days,0.301,0.301,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0017,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,37,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Uninfected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,development time,mean number of days from hatching to adult eclosion as a function of insecticide exposure and Wolbachia infection (see notes),5.663,days,0.361,0.361,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0017,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,37,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Infected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,development time,mean number of days from hatching to adult eclosion as a function of insecticide exposure and Wolbachia infection (see notes),7.691,days,0.321,0.321,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0033,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,37,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Uninfected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,development time,mean number of days from hatching to adult eclosion as a function of insecticide exposure and Wolbachia infection (see notes),5.683,days,0.341,0.341,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0033,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,37,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Infected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,development time,mean number of days from hatching to adult eclosion as a function of insecticide exposure and Wolbachia infection (see notes),7.691,days,0.321,0.321,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0067,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,37,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Uninfected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,development time,mean number of days from hatching to adult eclosion as a function of insecticide exposure and Wolbachia infection (see notes),5.703,days,0.261,0.261,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0067,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,37,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Infected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,development time,mean number of days from hatching to adult eclosion as a function of insecticide exposure and Wolbachia infection (see notes),7.651,days,0.382,0.382,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0133,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,37,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Uninfected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,development time,mean number of days from hatching to adult eclosion as a function of insecticide exposure and Wolbachia infection (see notes),5.683,days,0.321,0.321,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0133,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,37,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1b,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Infected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,survival,mean percentge surviving life stage as a function of insecticide exposure and Wolbachia infection (see notes),89.3,percent,2.675,2.675,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Uninfected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,survival,mean percentge surviving life stage as a function of insecticide exposure and Wolbachia infection (see notes),92.593,percent,1.44,1.44,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Infected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,survival,mean percentge surviving life stage as a function of insecticide exposure and Wolbachia infection (see notes),56.996,percent,4.115,4.115,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0017,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Uninfected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,survival,mean percentge surviving life stage as a function of insecticide exposure and Wolbachia infection (see notes),61.934,percent,1.029,1.029,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0017,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Infected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,survival,mean percentge surviving life stage as a function of insecticide exposure and Wolbachia infection (see notes),52.058,percent,1.44,1.44,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0033,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Uninfected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,survival,mean percentge surviving life stage as a function of insecticide exposure and Wolbachia infection (see notes),53.498,percent,1.646,1.646,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0033,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Infected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,survival,mean percentge surviving life stage as a function of insecticide exposure and Wolbachia infection (see notes),40.123,percent,2.881,2.881,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0067,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Uninfected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,survival,mean percentge surviving life stage as a function of insecticide exposure and Wolbachia infection (see notes),43.416,percent,1.646,1.646,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0067,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Infected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,survival,mean percentge surviving life stage as a function of insecticide exposure and Wolbachia infection (see notes),21.605,percent,1.852,1.852,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0133,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Uninfected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,survival,mean percentge surviving life stage as a function of insecticide exposure and Wolbachia infection (see notes),23.663,percent,1.44,1.44,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0133,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Infected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,survival,mean percentge surviving life stage as a function of insecticide exposure and Wolbachia infection (see notes),6.584,percent,1.44,1.44,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0167,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Uninfected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,survival,mean percentge surviving life stage as a function of insecticide exposure and Wolbachia infection (see notes),11.728,percent,1.44,1.44,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0167,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Infected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,survival,mean percentge surviving life stage as a function of insecticide exposure and Wolbachia infection (see notes),30.02,percent,3.083,3.083,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,37,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Uninfected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,survival,mean percentge surviving life stage as a function of insecticide exposure and Wolbachia infection (see notes),33.509,percent,1.542,1.542,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,37,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Infected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,survival,mean percentge surviving life stage as a function of insecticide exposure and Wolbachia infection (see notes),23.448,percent,4.462,4.462,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0017,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,37,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Uninfected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,survival,mean percentge surviving life stage as a function of insecticide exposure and Wolbachia infection (see notes),26.694,percent,1.623,1.623,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0017,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,37,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Infected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,survival,mean percentge surviving life stage as a function of insecticide exposure and Wolbachia infection (see notes),18.58,percent,4.219,4.219,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0033,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,37,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Uninfected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,survival,mean percentge surviving life stage as a function of insecticide exposure and Wolbachia infection (see notes),20.203,percent,2.759,2.759,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0033,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,37,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Infected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,survival,mean percentge surviving life stage as a function of insecticide exposure and Wolbachia infection (see notes),13.631,percent,1.46,1.46,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0067,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,37,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Uninfected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,survival,mean percentge surviving life stage as a function of insecticide exposure and Wolbachia infection (see notes),15.254,percent,2.84,2.84,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0067,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,37,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Infected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,survival,mean percentge surviving life stage as a function of insecticide exposure and Wolbachia infection (see notes),5.355,percent,2.84,2.84,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0133,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,37,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Uninfected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,survival,mean percentge surviving life stage as a function of insecticide exposure and Wolbachia infection (see notes),8.519,percent,1.704,1.704,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0133,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,60,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1 to adult,NA,37,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Infected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,body size,mean wing length as a function of insecticide exposure and Wolbachia infection (see notes),2.49,mm,0.03,0.03,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Uninfected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,body size,mean wing length as a function of insecticide exposure and Wolbachia infection (see notes),3.16,mm,0.05,0.05,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Uninfected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,body size,mean wing length as a function of insecticide exposure and Wolbachia infection (see notes),2.53,mm,0.01,0.01,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Infected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,body size,mean wing length as a function of insecticide exposure and Wolbachia infection (see notes),3.17,mm,0.03,0.03,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Infected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,body size,mean wing length as a function of insecticide exposure and Wolbachia infection (see notes),2.47,mm,0.04,0.04,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0017,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Uninfected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,body size,mean wing length as a function of insecticide exposure and Wolbachia infection (see notes),3.15,mm,0.05,0.05,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0017,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Uninfected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,body size,mean wing length as a function of insecticide exposure and Wolbachia infection (see notes),2.52,mm,0.03,0.03,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0017,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Infected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,body size,mean wing length as a function of insecticide exposure and Wolbachia infection (see notes),3.17,mm,0.02,0.02,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0017,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Infected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,body size,mean wing length as a function of insecticide exposure and Wolbachia infection (see notes),2.47,mm,0.03,0.03,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0033,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Uninfected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,body size,mean wing length as a function of insecticide exposure and Wolbachia infection (see notes),3.15,mm,0.04,0.04,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0033,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Uninfected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,body size,mean wing length as a function of insecticide exposure and Wolbachia infection (see notes),2.52,mm,0.02,0.02,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0033,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Infected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,body size,mean wing length as a function of insecticide exposure and Wolbachia infection (see notes),3.15,mm,0.05,0.05,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0033,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Infected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,body size,mean wing length as a function of insecticide exposure and Wolbachia infection (see notes),2.46,mm,0.02,0.02,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0067,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Uninfected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,body size,mean wing length as a function of insecticide exposure and Wolbachia infection (see notes),3.14,mm,0.04,0.04,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0067,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Uninfected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,body size,mean wing length as a function of insecticide exposure and Wolbachia infection (see notes),2.51,mm,0.04,0.04,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0067,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Infected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,body size,mean wing length as a function of insecticide exposure and Wolbachia infection (see notes),3.14,mm,0.04,0.04,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0067,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Infected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,body size,mean wing length as a function of insecticide exposure and Wolbachia infection (see notes),3.13,mm,0.03,0.03,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0133,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Uninfected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,body size,mean wing length as a function of insecticide exposure and Wolbachia infection (see notes),3.14,mm,0.03,0.03,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0133,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Infected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,body size,mean wing length as a function of insecticide exposure and Wolbachia infection (see notes),3.15,mm,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0167,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Uninfected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,body size,mean wing length as a function of insecticide exposure and Wolbachia infection (see notes),3.15,mm,0.05,0.05,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0167,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,25,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Infected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,body size,mean wing length as a function of insecticide exposure and Wolbachia infection (see notes),2.47,mm,0.01,0.01,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,37,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Uninfected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,body size,mean wing length as a function of insecticide exposure and Wolbachia infection (see notes),3.15,mm,0.06,0.06,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,37,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Uninfected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,body size,mean wing length as a function of insecticide exposure and Wolbachia infection (see notes),2.51,mm,0.04,0.04,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,37,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Infected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,body size,mean wing length as a function of insecticide exposure and Wolbachia infection (see notes),3.16,mm,0.03,0.03,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,37,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Infected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,body size,mean wing length as a function of insecticide exposure and Wolbachia infection (see notes),2.45,mm,0.01,0.01,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0017,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,37,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Uninfected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,body size,mean wing length as a function of insecticide exposure and Wolbachia infection (see notes),3.13,mm,0.03,0.03,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0017,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,37,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Uninfected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,body size,mean wing length as a function of insecticide exposure and Wolbachia infection (see notes),2.5,mm,0.05,0.05,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0017,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,37,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Infected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,body size,mean wing length as a function of insecticide exposure and Wolbachia infection (see notes),3.14,mm,0.01,0.01,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0017,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,37,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Infected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,body size,mean wing length as a function of insecticide exposure and Wolbachia infection (see notes),2.46,mm,0.01,0.01,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0033,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,37,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Uninfected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,body size,mean wing length as a function of insecticide exposure and Wolbachia infection (see notes),3.14,mm,0.01,0.01,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0033,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,37,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Uninfected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,body size,mean wing length as a function of insecticide exposure and Wolbachia infection (see notes),2.51,mm,0.01,0.01,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0033,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,37,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Infected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,body size,mean wing length as a function of insecticide exposure and Wolbachia infection (see notes),3.15,mm,0.01,0.01,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0033,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,37,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Infected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,body size,mean wing length as a function of insecticide exposure and Wolbachia infection (see notes),2.45,mm,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0067,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,37,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Uninfected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,body size,mean wing length as a function of insecticide exposure and Wolbachia infection (see notes),3.13,mm,0.01,0.01,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0067,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,37,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Uninfected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,body size,mean wing length as a function of insecticide exposure and Wolbachia infection (see notes),2.5,mm,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0067,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,male,37,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Infected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,body size,mean wing length as a function of insecticide exposure and Wolbachia infection (see notes),3.13,mm,0.02,0.02,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0067,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,37,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Infected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,body size,mean wing length as a function of insecticide exposure and Wolbachia infection (see notes),3.14,mm,0,0,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0133,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,37,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Uninfected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,NA,body size,mean wing length as a function of insecticide exposure and Wolbachia infection (see notes),3.15,mm,0.01,0.01,se,NA,NA,terrestrial,laboratory,NA,NA,25,NA,Celsius,12,hours,insecticide exposure,concentration of Temephos juveniles exposed to,0.0133,mg/l,NA,NA,NA,NA,NA,Western Thailand,colony,NA,1,decimal,14,99.5,Aedes albopictus,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,37,Celsius,NA,25,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Wiwatanaratanabutr and Kittayapong. 2006. Effects of temephos and temperature on Wolbachia load and life history traits of Aedes albopictus. Medical and Veterinary Entomology 20.,10.1111/j.1365-2915.2006.00640.x,NA,NA,Daniele Da Re,dare.daniele@gmail.com,Infected with Wolbachia wAlbA or wAlbA. Kanchanaburi Province (Western Thailand) and the Phi Phi Islands off the west coast of Thailand in 1998,TRUE,01/01/2006
NA,RUS001,survival,percentage of larvae pupating,96.625,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,n=200 larvae per 200 ml with mg food per larvae (secondstressor). 1 = BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,1,larva/ml - mg/larva,NA,NA,NA,NA,NA,Sydney Australia,field,NA,0,decimal,-33.866667,151.2,Aedes notoscriptus,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS001,survival,percentage of larvae pupating,91.188,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,n=400 larvae per 200 ml with mg food per larvae (secondstressor). 1 = BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,1,larva/ml - mg/larva,NA,NA,NA,NA,NA,Sydney Australia,field,NA,1,decimal,-33.866667,151.2,Aedes notoscriptus,NA,NA,NA,400,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS001,survival,percentage of larvae pupating,81.063,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,n=800 larvae per 200 ml with mg food per larvae (secondstressor). 1 = BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,1,larva/ml - mg/larva,NA,NA,NA,NA,NA,Sydney Australia,field,NA,2,decimal,-33.866667,151.2,Aedes notoscriptus,NA,NA,NA,800,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS001,survival,percentage of larvae pupating,70,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,n=1600 larvae per 200 ml with mg food per larvae (secondstressor). BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,1,larva/ml - mg/larva,NA,NA,NA,NA,NA,Sydney Australia,field,NA,3,decimal,-33.866667,151.2,Aedes notoscriptus,NA,NA,NA,1600,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS001,survival,percentage of larvae pupating,90.25,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,n=200 larvae per 200 ml with mg food per larvae (secondstressor). 1 = BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,1,larva/ml - mg/larva,NA,NA,NA,NA,NA,Sydney Australia,field,NA,4,decimal,-33.866667,151.2,Aedes notoscriptus,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS001,survival,percentage of larvae pupating,79.75,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,n=400 larvae per 200 ml with mg food per larvae (secondstressor). 1 = BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,1,larva/ml - mg/larva,NA,NA,NA,NA,NA,Sydney Australia,field,NA,5,decimal,-33.866667,151.2,Aedes notoscriptus,NA,NA,NA,400,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS001,survival,percentage of larvae pupating,77.688,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,n=800 larvae per 200 ml with mg food per larvae (secondstressor). 1 = BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,1,larva/ml - mg/larva,NA,NA,NA,NA,NA,Sydney Australia,field,NA,6,decimal,-33.866667,151.2,Aedes notoscriptus,NA,NA,NA,800,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS001,survival,percentage of larvae pupating,61.563,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,n=1600 larvae per 200 ml with mg food per larvae (secondstressor). BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,1,larva/ml - mg/larva,NA,NA,NA,NA,NA,Sydney Australia,field,NA,7,decimal,-33.866667,151.2,Aedes notoscriptus,NA,NA,NA,1600,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS001,survival,percentage of larvae pupating,89.875,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,n=200 larvae per 200 ml with mg food per larvae (secondstressor). 1 = BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,1,larva/ml - mg/larva,NA,NA,NA,NA,NA,Sydney Australia,field,NA,8,decimal,-33.866667,151.2,Aedes notoscriptus,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS001,survival,percentage of larvae pupating,69.438,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,n=200 larvae per 200 ml with mg food per larvae (secondstressor). 1 = BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,0.5,larva/ml - mg/larva,NA,NA,NA,NA,NA,Sydney Australia,field,NA,9,decimal,-33.866667,151.2,Aedes notoscriptus,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS001,survival,percentage of larvae pupating,59.688,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,n=200 larvae per 200 ml with mg food per larvae (secondstressor). 1 = BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,0.25,larva/ml - mg/larva,NA,NA,NA,NA,NA,Sydney Australia,field,NA,10,decimal,-33.866667,151.2,Aedes notoscriptus,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS001,survival,percentage of larvae pupating,44.688,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,n=200 larvae per 200 ml with mg food per larvae (secondstressor). 1 = BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,0.125,larva/ml - mg/larva,NA,NA,NA,NA,NA,Sydney Australia,field,NA,11,decimal,-33.866667,151.2,Aedes notoscriptus,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS001,survival,percentage of larvae pupating,93.813,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,n=200 larvae per 200 ml with mg food per larvae (secondstressor). 1 = BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,1,larva/ml - mg/larva,NA,NA,NA,NA,NA,Sydney Australia,field,NA,12,decimal,-33.866667,151.2,Aedes notoscriptus,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS001,survival,percentage of larvae pupating,82.75,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,n=200 larvae per 200 ml with mg food per larvae (secondstressor). 1 = BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,0.5,larva/ml - mg/larva,NA,NA,NA,NA,NA,Sydney Australia,field,NA,13,decimal,-33.866667,151.2,Aedes notoscriptus,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS001,survival,percentage of larvae pupating,79.188,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,n=200 larvae per 200 ml with mg food per larvae (secondstressor). 1 = BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,0.25,larva/ml - mg/larva,NA,NA,NA,NA,NA,Sydney Australia,field,NA,14,decimal,-33.866667,151.2,Aedes notoscriptus,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS001,survival,percentage of larvae pupating,60.438,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,n=200 larvae per 200 ml with mg food per larvae (secondstressor). 1 = BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,0.125,larva/ml - mg/larva,NA,NA,NA,NA,NA,Sydney Australia,field,NA,15,decimal,-33.866667,151.2,Aedes notoscriptus,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS001,survival,percentage of larvae pupating,92.5,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,n=200 larvae per 200 ml with mg food per larvae (secondstressor). 1 = BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,1,larva/ml - mg/larva,NA,NA,NA,NA,NA,Sydney Australia,field,NA,16,decimal,-33.866667,151.2,Aedes notoscriptus,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS001,survival,percentage of larvae pupating,76.563,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,n=200 larvae per 200 ml with mg food per larvae (secondstressor). 1 = BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,0.5,larva/ml - mg/larva,NA,NA,NA,NA,NA,Sydney Australia,field,NA,17,decimal,-33.866667,151.2,Aedes notoscriptus,NA,NA,NA,400,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS001,survival,percentage of larvae pupating,64.375,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,n=200 larvae per 200 ml with mg food per larvae (secondstressor). 1 = BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,0.25,larva/ml - mg/larva,NA,NA,NA,NA,NA,Sydney Australia,field,NA,18,decimal,-33.866667,151.2,Aedes notoscriptus,NA,NA,NA,800,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS001,survival,percentage of larvae pupating,49.188,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,n=200 larvae per 200 ml with mg food per larvae (secondstressor). 1 = BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,0.125,larva/ml - mg/larva,NA,NA,NA,NA,NA,Sydney Australia,field,NA,19,decimal,-33.866667,151.2,Aedes notoscriptus,NA,NA,NA,1600,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS001,survival,percentage of larvae pupating,93.625,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,n=200 larvae per 200 ml with mg food per larvae (secondstressor). 1 = BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,1,larva/ml - mg/larva,NA,NA,NA,NA,NA,Sydney Australia,field,NA,20,decimal,-33.866667,151.2,Aedes notoscriptus,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS001,survival,percentage of larvae pupating,61.75,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,n=200 larvae per 200 ml with mg food per larvae (secondstressor). 1 = BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,0.5,larva/ml - mg/larva,NA,NA,NA,NA,NA,Sydney Australia,field,NA,21,decimal,-33.866667,151.2,Aedes notoscriptus,NA,NA,NA,400,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS001,survival,percentage of larvae pupating,49.75,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,n=200 larvae per 200 ml with mg food per larvae (secondstressor). 1 = BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,0.25,larva/ml - mg/larva,NA,NA,NA,NA,NA,Sydney Australia,field,NA,22,decimal,-33.866667,151.2,Aedes notoscriptus,NA,NA,NA,800,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS001,survival,percentage of larvae pupating,26.875,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,n=200 larvae per 200 ml with mg food per larvae (secondstressor). 1 = BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,0.125,larva/ml - mg/larva,NA,NA,NA,NA,NA,Sydney Australia,field,NA,23,decimal,-33.866667,151.2,Aedes notoscriptus,NA,NA,NA,1600,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS001,survival,percentage of larvae pupating,94.03,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,n=200 larvae per 200 ml with mg food per larvae (secondstressor). 1 = (BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,1,larva food ration,NA,NA,NA,NA,NA,Queensland,colony,NA,0,decimal,-27.467778,153.028056,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS001,survival,percentage of larvae pupating,84.34,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,n=400 larvae per 200 ml with mg food per larvae (secondstressor). 1 = (BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,1,larva food ration,NA,NA,NA,NA,NA,Queensland,colony,NA,0,decimal,-27.467778,153.028056,Aedes aegypti,NA,NA,NA,400,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS001,survival,percentage of larvae pupating,79.84,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,n=800 larvae per 200 ml with mg food per larvae (secondstressor). 1 = (BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,1,larva food ration,NA,NA,NA,NA,NA,Queensland,colony,NA,0,decimal,-27.467778,153.028056,Aedes aegypti,NA,NA,NA,800,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS001,survival,percentage of larvae pupating,62.72,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,n=1600 larvae per 200 ml with mg food per larvae (secondstressor). 1 = (BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,1,larva food ration,NA,NA,NA,NA,NA,Queensland,colony,NA,0,decimal,-27.467778,153.028056,Aedes aegypti,NA,NA,NA,1600,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS001,survival,percentage of larvae pupating,91.1,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,n=200 larvae per 200 ml with mg food per larvae (secondstressor). 1 = BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,1,larva food ration,NA,NA,NA,NA,NA,Queensland,colony,NA,0,decimal,-27.467778,153.028056,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS001,survival,percentage of larvae pupating,88.74,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,n=400 larvae per 200 ml with mg food per larvae (secondstressor). 1 = BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,1,larva food ration,NA,NA,NA,NA,NA,Queensland,colony,NA,0,decimal,-27.467778,153.028056,Aedes aegypti,NA,NA,NA,400,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS001,survival,percentage of larvae pupating,77.59,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,n=800 larvae per 200 ml with mg food per larvae (secondstressor). 1 = BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,1,larva food ration,NA,NA,NA,NA,NA,Queensland,colony,NA,0,decimal,-27.467778,153.028056,Aedes aegypti,NA,NA,NA,800,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS001,survival,percentage of larvae pupating,70.61,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,n=1600 larvae per 200 ml with mg food per larvae (secondstressor). 1 = BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,1,larva food ration,NA,NA,NA,NA,NA,Queensland,colony,NA,0,decimal,-27.467778,153.028056,Aedes aegypti,NA,NA,NA,1600,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS001,survival,percentage of larvae pupating,89.29,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,n=200 larvae per 200 ml with mg food per larvae (secondstressor). 1 = BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,1,larva food ration,NA,NA,NA,NA,NA,Queensland,colony,NA,0,decimal,-27.467778,153.028056,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS001,survival,percentage of larvae pupating,85.8,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,n=200 larvae per 200 ml with mg food per larvae (secondstressor). 1 = (BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,0.5,larva food ration,NA,NA,NA,NA,NA,Queensland,colony,NA,0,decimal,-27.467778,153.028056,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS001,survival,percentage of larvae pupating,76.01,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,n=200 larvae per 200 ml with mg food per larvae (secondstressor). 1 = (BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,0.25,larva food ration,NA,NA,NA,NA,NA,Queensland,colony,NA,0,decimal,-27.467778,153.028056,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS001,survival,percentage of larvae pupating,57.88,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,n=200 larvae per 200 ml with mg food per larvae (secondstressor). 1 = (BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,0.125,larva food ration,NA,NA,NA,NA,NA,Queensland,colony,NA,0,decimal,-27.467778,153.028056,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS001,survival,percentage of larvae pupating,91.09,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,n=200 larvae per 200 ml with mg food per larvae (secondstressor). 1 = (BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,1,larva food ration,NA,NA,NA,NA,NA,Queensland,colony,NA,0,decimal,-27.467778,153.028056,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS001,survival,percentage of larvae pupating,88.28,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,n=200 larvae per 200 ml with mg food per larvae (secondstressor). 1 = (BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,0.5,larva food ration,NA,NA,NA,NA,NA,Queensland,colony,NA,0,decimal,-27.467778,153.028056,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS001,survival,percentage of larvae pupating,72.86,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,n=200 larvae per 200 ml with mg food per larvae (secondstressor). 1 = (BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,0.25,larva food ration,NA,NA,NA,NA,NA,Queensland,colony,NA,0,decimal,-27.467778,153.028056,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS001,survival,percentage of larvae pupating,62.83,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,n=200 larvae per 200 ml with mg food per larvae (secondstressor). 1 = (BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,0.125,larva food ration,NA,NA,NA,NA,NA,Queensland,colony,NA,0,decimal,-27.467778,153.028056,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS001,survival,percentage of larvae pupating,91.2,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,n=200 larvae per 200 ml with mg food per larvae (secondstressor). 1 = (BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,1,larva food ration,NA,NA,NA,NA,NA,Queensland,colony,NA,0,decimal,-27.467778,153.028056,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS001,survival,percentage of larvae pupating,65.76,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,n=200 larvae per 200 ml with mg food per larvae (secondstressor). 1 = (BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,0.5,larva food ration,NA,NA,NA,NA,NA,Queensland,colony,NA,0,decimal,-27.467778,153.028056,Aedes aegypti,NA,NA,NA,400,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS001,survival,percentage of larvae pupating,58.33,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,n=200 larvae per 200 ml with mg food per larvae (secondstressor). 1 = (BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,0.25,larva food ration,NA,NA,NA,NA,NA,Queensland,colony,NA,0,decimal,-27.467778,153.028056,Aedes aegypti,NA,NA,NA,800,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS001,survival,percentage of larvae pupating,45.61,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,n=200 larvae per 200 ml with mg food per larvae (secondstressor). 1 = (BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,0.125,larva food ration,NA,NA,NA,NA,NA,Queensland,colony,NA,0,decimal,-27.467778,153.028056,Aedes aegypti,NA,NA,NA,1600,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS001,survival,percentage of larvae pupating,95.04,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,n=200 larvae per 200 ml with mg food per larvae (secondstressor). 1 = (BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,1,larva food ration,NA,NA,NA,NA,NA,Queensland,colony,NA,0,decimal,-27.467778,153.028056,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS001,survival,percentage of larvae pupating,70.49,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,n=200 larvae per 200 ml with mg food per larvae (secondstressor). 1 = (BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,0.5,larva food ration,NA,NA,NA,NA,NA,Queensland,colony,NA,0,decimal,-27.467778,153.028056,Aedes aegypti,NA,NA,NA,400,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS001,survival,percentage of larvae pupating,55.74,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,n=200 larvae per 200 ml with mg food per larvae (secondstressor). 1 = (BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,0.25,larva food ration,NA,NA,NA,NA,NA,Queensland,colony,NA,0,decimal,-27.467778,153.028056,Aedes aegypti,NA,NA,NA,800,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS001,survival,percentage of larvae pupating,40.88,percent,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,n=200 larvae per 200 ml with mg food per larvae (secondstressor). 1 = (BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,0.125,larva food ration,NA,NA,NA,NA,NA,Queensland,colony,NA,0,decimal,-27.467778,153.028056,Aedes aegypti,NA,NA,NA,1600,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS002,development time,number of days for 50 percent of surviving larvae to pupate when reared togther at two temperatures,12.4,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,number of larvae with BR food ration,200,larva food ration,NA,NA,NA,NA,NA,Queensland,colony,NA,0,decimal,-27.467778,153.028056,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS002,development time,number of days for 50 percent of surviving larvae to pupate when reared togther at two temperatures,15,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,number of larvae with BR food ration,400,larva food ration,NA,NA,NA,NA,NA,Queensland,colony,NA,0,decimal,-27.467778,153.028056,Aedes aegypti,NA,NA,NA,400,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS002,development time,number of days for 50 percent of surviving larvae to pupate when reared togther at two temperatures,20.7,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,number of larvae with BR food ration,800,larva food ration,NA,NA,NA,NA,NA,Queensland,colony,NA,0,decimal,-27.467778,153.028056,Aedes aegypti,NA,NA,NA,800,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS002,development time,number of days for 50 percent of surviving larvae to pupate when reared togther at two temperatures,29.7,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,number of larvae with BR food ration,1600,larva food ration,NA,NA,NA,NA,NA,Queensland,colony,NA,0,decimal,-27.467778,153.028056,Aedes aegypti,NA,NA,NA,1600,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS002,development time,number of days for 50 percent of surviving larvae to pupate when reared togther at two temperatures,12.2,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,mg food per larvae. 1= BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,1,mg/larva,NA,NA,NA,NA,NA,Queensland,colony,NA,0,decimal,-27.467778,153.028056,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS002,development time,number of days for 50 percent of surviving larvae to pupate when reared togther at two temperatures,15.2,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,mg food per larvae. 1= BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,0.5,mg/larva,NA,NA,NA,NA,NA,Queensland,colony,NA,0,decimal,-27.467778,153.028056,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS002,development time,number of days for 50 percent of surviving larvae to pupate when reared togther at two temperatures,23.3,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,mg food per larvae. 1= BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,0.25,mg/larva,NA,NA,NA,NA,NA,Queensland,colony,NA,0,decimal,-27.467778,153.028056,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS002,development time,number of days for 50 percent of surviving larvae to pupate when reared togther at two temperatures,33.8,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,mg food per larvae. 1= BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,0.125,mg/larva,NA,NA,NA,NA,NA,Queensland,colony,NA,0,decimal,-27.467778,153.028056,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS002,development time,number of days for 50 percent of surviving larvae to pupate when reared togther at two temperatures,11.9,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,number of larvae per 200 ml of water,1,larva food ration,NA,NA,NA,NA,NA,Queensland,colony,NA,0,decimal,-27.467778,153.028056,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS002,development time,number of days for 50 percent of surviving larvae to pupate when reared togther at two temperatures,19.1,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,number of larvae per 200 ml of water,0.5,larva food ration,NA,NA,NA,NA,NA,Queensland,colony,NA,0,decimal,-27.467778,153.028056,Aedes aegypti,NA,NA,NA,400,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS002,development time,number of days for 50 percent of surviving larvae to pupate when reared togther at two temperatures,29.1,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,number of larvae per 200 ml of water,0.25,larva food ration,NA,NA,NA,NA,NA,Queensland,colony,NA,0,decimal,-27.467778,153.028056,Aedes aegypti,NA,NA,NA,800,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS002,development time,number of days for 50 percent of surviving larvae to pupate when reared togther at two temperatures,37,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,number of larvae per 200 ml of water,0.125,larva food ration,NA,NA,NA,NA,NA,Queensland,colony,NA,0,decimal,-27.467778,153.028056,Aedes aegypti,NA,NA,NA,1600,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS002,development time,number of days for 50 percent of surviving larvae to pupate when reared togther at two temperatures,8,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,number of larvae per 200 ml of water,200,larva/ml,NA,NA,NA,NA,NA,Queensland,colony,NA,0,decimal,-27.467778,153.028056,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS002,development time,number of days for 50 percent of surviving larvae to pupate when reared togther at two temperatures,10.9,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,number of larvae per 200 ml of water,400,larva/ml,NA,NA,NA,NA,NA,Queensland,colony,NA,0,decimal,-27.467778,153.028056,Aedes aegypti,NA,NA,NA,400,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS002,development time,number of days for 50 percent of surviving larvae to pupate when reared togther at two temperatures,16.9,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,number of larvae per 200 ml of water,800,larva/ml,NA,NA,NA,NA,NA,Queensland,colony,NA,0,decimal,-27.467778,153.028056,Aedes aegypti,NA,NA,NA,800,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS002,development time,number of days for 50 percent of surviving larvae to pupate when reared togther at two temperatures,22.2,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,number of larvae per 200 ml of water,1600,larva/ml,NA,NA,NA,NA,NA,Queensland,colony,NA,0,decimal,-27.467778,153.028056,Aedes aegypti,NA,NA,NA,1600,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS002,development time,number of days for 50 percent of surviving larvae to pupate when reared togther at two temperatures,8.2,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,mg food per larvae. BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,1,larva food ration,NA,NA,NA,NA,NA,Queensland,colony,NA,0,decimal,-27.467778,153.028056,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS002,development time,number of days for 50 percent of surviving larvae to pupate when reared togther at two temperatures,11.7,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,mg food per larvae. BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .126,0.5,larva food ration,NA,NA,NA,NA,NA,Queensland,colony,NA,0,decimal,-27.467778,153.028056,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS002,development time,number of days for 50 percent of surviving larvae to pupate when reared togther at two temperatures,20.1,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,mg food per larvae. BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .127,0.25,larva food ration,NA,NA,NA,NA,NA,Queensland,colony,NA,0,decimal,-27.467778,153.028056,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS002,development time,number of days for 50 percent of surviving larvae to pupate when reared togther at two temperatures,25.3,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,mg food per larvae. BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .128,0.125,larva food ration,NA,NA,NA,NA,NA,Queensland,colony,NA,0,decimal,-27.467778,153.028056,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS002,development time,number of days for 50 percent of surviving larvae to pupate when reared togther at two temperatures,8.8,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,number of larvae per 200 ml of water,1,larva/ml - mg/larva,NA,NA,NA,NA,NA,Queensland,colony,NA,0,decimal,-27.467778,153.028056,Aedes aegypti,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS002,development time,number of days for 50 percent of surviving larvae to pupate when reared togther at two temperatures,14.7,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,number of larvae per 200 ml of water,0.5,larva/ml - mg/larva,NA,NA,NA,NA,NA,Queensland,colony,NA,0,decimal,-27.467778,153.028056,Aedes aegypti,NA,NA,NA,400,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS002,development time,number of days for 50 percent of surviving larvae to pupate when reared togther at two temperatures,24.5,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,number of larvae per 200 ml of water,0.25,larva/ml - mg/larva,NA,NA,NA,NA,NA,Queensland,colony,NA,0,decimal,-27.467778,153.028056,Aedes aegypti,NA,NA,NA,800,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS002,development time,number of days for 50 percent of surviving larvae to pupate when reared togther at two temperatures,28.5,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,number of larvae per 200 ml of water,0.125,larva/ml - mg/larva,NA,NA,NA,NA,NA,Queensland,colony,NA,0,decimal,-27.467778,153.028056,Aedes aegypti,NA,NA,NA,1600,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS002,development time,number of days for 50 percent of surviving larvae to pupate when reared togther at two temperatures,11.5,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,number of larvae,200,larva/ml,NA,NA,NA,NA,NA,Sydney Australia,field,NA,0,decimal,-33.866667,151.2,Aedes notoscriptus,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS002,development time,number of days for 50 percent of surviving larvae to pupate when reared togther at two temperatures,13.7,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,number of larvae,400,larva/ml,NA,NA,NA,NA,NA,Sydney Australia,field,NA,0,decimal,-33.866667,151.2,Aedes notoscriptus,NA,NA,NA,400,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS002,development time,number of days for 50 percent of surviving larvae to pupate when reared togther at two temperatures,19.5,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,number of larvae,800,larva/ml,NA,NA,NA,NA,NA,Sydney Australia,field,NA,0,decimal,-33.866667,151.2,Aedes notoscriptus,NA,NA,NA,800,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS002,development time,number of days for 50 percent of surviving larvae to pupate when reared togther at two temperatures,27.9,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,number of larvae,1600,larva/ml,NA,NA,NA,NA,NA,Sydney Australia,field,NA,0,decimal,-33.866667,151.2,Aedes notoscriptus,NA,NA,NA,1600,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS002,development time,number of days for 50 percent of surviving larvae to pupate when reared togther at two temperatures,11.2,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,mg food per larvae. BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,1,mg/larva,NA,NA,NA,NA,NA,Sydney Australia,field,NA,0,decimal,-33.866667,151.2,Aedes notoscriptus,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS002,development time,number of days for 50 percent of surviving larvae to pupate when reared togther at two temperatures,15,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,mg food per larvae. BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,0.5,mg/larva,NA,NA,NA,NA,NA,Sydney Australia,field,NA,0,decimal,-33.866667,151.2,Aedes notoscriptus,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS002,development time,number of days for 50 percent of surviving larvae to pupate when reared togther at two temperatures,21.8,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,mg food per larvae. BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .126,0.25,mg/larva,NA,NA,NA,NA,NA,Sydney Australia,field,NA,0,decimal,-33.866667,151.2,Aedes notoscriptus,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS002,development time,number of days for 50 percent of surviving larvae to pupate when reared togther at two temperatures,32.5,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,mg food per larvae. BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .127,0.125,mg/larva,NA,NA,NA,NA,NA,Sydney Australia,field,NA,0,decimal,-33.866667,151.2,Aedes notoscriptus,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS002,development time,number of days for 50 percent of surviving larvae to pupate when reared togther at two temperatures,11.5,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,number of larvae per 200 ml of water,1,larva/ml - mg/larva,NA,NA,NA,NA,NA,Sydney Australia,field,NA,0,decimal,-33.866667,151.2,Aedes notoscriptus,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS002,development time,number of days for 50 percent of surviving larvae to pupate when reared togther at two temperatures,18.9,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,number of larvae per 200 ml of water,0.5,larva/ml - mg/larva,NA,NA,NA,NA,NA,Sydney Australia,field,NA,0,decimal,-33.866667,151.2,Aedes notoscriptus,NA,NA,NA,400,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS002,development time,number of days for 50 percent of surviving larvae to pupate when reared togther at two temperatures,26.3,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,number of larvae per 200 ml of water,0.25,larva/ml - mg/larva,NA,NA,NA,NA,NA,Sydney Australia,field,NA,0,decimal,-33.866667,151.2,Aedes notoscriptus,NA,NA,NA,800,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS002,development time,number of days for 50 percent of surviving larvae to pupate when reared togther at two temperatures,35.2,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,number of larvae per 200 ml of water,0.125,larva/ml - mg/larva,NA,NA,NA,NA,NA,Sydney Australia,field,NA,0,decimal,-33.866667,151.2,Aedes notoscriptus,NA,NA,NA,1600,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS002,development time,number of days for 50 percent of surviving larvae to pupate when reared togther at two temperatures,7.8,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,number of larvae per 200 ml of water,200,larva/ml,NA,NA,NA,NA,NA,Sydney Australia,field,NA,0,decimal,-33.866667,151.2,Aedes notoscriptus,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS002,development time,number of days for 50 percent of surviving larvae to pupate when reared togther at two temperatures,11.1,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,number of larvae per 200 ml of water,400,larva/ml,NA,NA,NA,NA,NA,Sydney Australia,field,NA,0,decimal,-33.866667,151.2,Aedes notoscriptus,NA,NA,NA,400,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS002,development time,number of days for 50 percent of surviving larvae to pupate when reared togther at two temperatures,16.4,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,number of larvae per 200 ml of water,800,larva/ml,NA,NA,NA,NA,NA,Sydney Australia,field,NA,0,decimal,-33.866667,151.2,Aedes notoscriptus,NA,NA,NA,800,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS002,development time,number of days for 50 percent of surviving larvae to pupate when reared togther at two temperatures,23.3,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,number of larvae per 200 ml of water,1600,larva/ml,NA,NA,NA,NA,NA,Sydney Australia,field,NA,0,decimal,-33.866667,151.2,Aedes notoscriptus,NA,NA,NA,1600,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS002,development time,number of days for 50 percent of surviving larvae to pupate when reared togther at two temperatures,8,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,mg food per larvae. BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .125,1,mg/larva,NA,NA,NA,NA,NA,Sydney Australia,field,NA,0,decimal,-33.866667,151.2,Aedes notoscriptus,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS002,development time,number of days for 50 percent of surviving larvae to pupate when reared togther at two temperatures,11.5,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,mg food per larvae. BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .126,0.5,mg/larva,NA,NA,NA,NA,NA,Sydney Australia,field,NA,0,decimal,-33.866667,151.2,Aedes notoscriptus,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS002,development time,number of days for 50 percent of surviving larvae to pupate when reared togther at two temperatures,20.9,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,mg food per larvae. BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .127,0.25,mg/larva,NA,NA,NA,NA,NA,Sydney Australia,field,NA,0,decimal,-33.866667,151.2,Aedes notoscriptus,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS002,development time,number of days for 50 percent of surviving larvae to pupate when reared togther at two temperatures,26.6,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,food level,mg food per larvae. BR = basic food ration of 0.2 0.3 0.4 and 0.6 mg of ground cubes on days days 0 1 2 and 3 respectively and then 0.6 mg on subsequent days. Half BR = .5 quarter BR = .25 one eighth BR = .128,0.125,mg/larva,NA,NA,NA,NA,NA,Sydney Australia,field,NA,0,decimal,-33.866667,151.2,Aedes notoscriptus,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS002,development time,number of days for 50 percent of surviving larvae to pupate when reared togther at two temperatures,8,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,number of larvae per 200 ml of water,1,larva/ml - mg/larva,NA,NA,NA,NA,NA,Sydney Australia,field,NA,0,decimal,-33.866667,151.2,Aedes notoscriptus,NA,NA,NA,200,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS002,development time,number of days for 50 percent of surviving larvae to pupate when reared togther at two temperatures,15.5,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,number of larvae per 200 ml of water,0.5,larva/ml - mg/larva,NA,NA,NA,NA,NA,Sydney Australia,field,NA,0,decimal,-33.866667,151.2,Aedes notoscriptus,NA,NA,NA,400,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS002,development time,number of days for 50 percent of surviving larvae to pupate when reared togther at two temperatures,25.5,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,number of larvae per 200 ml of water,0.25,larva/ml - mg/larva,NA,NA,NA,NA,NA,Sydney Australia,field,NA,0,decimal,-33.866667,151.2,Aedes notoscriptus,NA,NA,NA,800,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,RUS002,development time,number of days for 50 percent of surviving larvae to pupate when reared togther at two temperatures,30.9,days,NA,NA,NA,NA,3,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density and food level,number of larvae per 200 ml of water,0.125,larva/ml - mg/larva,NA,NA,NA,NA,NA,Sydney Australia,field,NA,0,decimal,-33.866667,151.2,Aedes notoscriptus,NA,NA,NA,1600,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,notoscriptus,larval,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 2,Russell 1986. Larval Competition Between the Introduced Vector of Dengue Fever in Australia Aedes aegypti (L) and a Native Container-Breeding Mosquito Aedes notoscriptus (Skuse) (Diptera Culicidae). Australian Journal of Zoology 34:4,10.1071/ZO9860527,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/1986
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.88,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,6,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.87,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,6,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.85,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,6,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.83,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,6,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.82,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,6,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.83,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,12,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.81,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,12,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.6,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,12,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.76,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,18,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.75,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,18,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.74,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,18,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.71,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,18,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.7,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,18,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.56,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,18,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.66,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,24,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.63,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,24,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.23,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,24,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.07,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,24,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.48,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,30,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.46,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,30,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.44,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,30,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.35,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,30,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.07,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,30,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.38,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,36,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.28,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,36,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.23,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,36,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.17,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,36,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.07,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,36,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.85,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,12,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.083333,121.366667,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.8,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,12,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.76,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,12,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.68,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,12,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.74,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,24,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.71,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,24,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.69,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,24,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.65,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,24,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.41,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,24,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.63,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,36,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.53,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,36,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.51,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,36,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.44,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,36,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.32,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,48,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.23,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,48,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.17,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,48,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.32,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,60,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.23,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,60,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.17,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,60,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.07,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,60,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.28,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,72,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.23,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,72,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.17,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,72,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.07,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,72,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2a,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.85,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,6,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.83,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,6,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.49,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,6,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.86,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,12,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.84,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,12,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.84,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,12,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.83,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,12,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.35,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,12,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.84,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,24,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.75,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,24,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.68,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,24,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.55,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,36,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.53,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,36,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.49,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,36,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.35,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,36,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.23,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,36,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.07,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,36,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.49,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,48,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.41,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,48,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.28,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,48,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.17,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,48,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.07,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,48,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.39,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,60,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.07,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,60,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.81,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,24,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.79,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,24,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.77,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,24,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.73,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,24,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.7,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,24,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.55,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,24,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.69,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,48,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.66,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,48,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.6,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,48,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.55,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,48,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.51,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,49,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.59,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,72,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.55,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,72,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.51,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,72,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.44,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,72,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.41,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,72,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.53,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,96,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.51,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,96,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.47,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,96,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.41,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,96,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.32,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,96,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.58,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,120,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.48,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,120,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.44,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,120,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.35,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,120,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.28,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,120,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.17,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,120,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.62,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,144,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.28,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,144,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.23,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,144,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.17,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,144,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2b,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.87,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,48,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.84,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,48,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.81,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,48,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.58,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,49,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.17,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,49,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.83,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,72,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.69,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,72,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.6,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,72,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.55,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,73,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.18,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,72,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.82,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,96,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.79,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,96,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.65,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,96,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.55,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,96,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.32,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,96,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.23,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,96,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.82,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,120,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.53,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,120,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.28,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,120,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.24,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,120,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.8,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,144,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.57,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,144,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.44,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,144,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.18,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,144,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.07,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,144,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.71,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,168,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.55,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,168,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.44,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,168,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.17,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,168,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.07,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,168,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,02/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.87,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,240,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.85,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,240,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.83,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,240,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.81,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,240,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.75,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,240,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.8,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,340,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.79,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,340,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.6,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,340,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.59,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,340,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.55,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,340,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.23,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,340,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.77,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,460,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.74,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,460,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.67,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,460,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.49,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,460,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.44,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,460,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.75,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,580,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.69,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,580,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.64,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,580,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.62,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,580,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.24,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,580,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.49,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,720,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.44,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,720,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.42,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,720,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.18,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,720,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.07,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,720,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.32,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,840,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.24,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,840,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.08,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,840,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L1,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2c,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.86,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,4,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.85,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,4,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.84,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,4,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.84,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,6,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.8,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,6,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.78,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,6,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.77,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,6,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.73,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,8,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.7,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,8,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.53,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,8,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.69,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,10,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.65,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,10,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.61,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,10,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.6,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,12,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.58,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,12,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.53,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,12,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.51,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,12,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.49,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,12,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.55,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,14,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.53,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,14,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.51,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,14,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.44,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,14,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.82,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,4,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.79,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,4,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.76,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,4,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.75,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,6,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.74,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,6,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.73,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,6,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.7,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,6,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.68,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,6,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.75,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,8,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.69,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,8,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.68,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,8,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.65,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,8,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.63,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,8,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.58,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,8,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.62,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,10,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.57,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,10,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.53,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,10,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.51,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,10,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.41,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,10,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.31,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,10,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.44,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,12,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.32,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,12,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.28,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,12,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.23,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,12,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.35,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,14,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.28,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,14,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.23,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,14,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.17,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,14,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,2.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2d,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.86,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,3,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.85,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,3,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.83,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,3,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.81,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,3,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.8,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,6,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.78,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,6,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.68,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,6,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.73,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,9,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.67,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,9,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.66,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,9,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.62,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,9,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.73,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,12,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.7,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,12,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.64,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,12,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.62,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,12,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.58,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,12,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.56,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,12,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.72,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,15,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.67,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,15,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.59,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,15,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.47,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,15,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.41,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,15,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.69,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,18,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.6,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,18,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.44,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,18,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.41,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,18,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.23,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,18,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.82,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,4,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.8,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,4,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.79,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,4,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.77,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,4,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.77,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,6,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.75,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,6,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.74,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,6,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.7,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,6,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.69,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,9,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.65,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,9,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.6,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,9,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.59,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,9,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.55,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,9,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.51,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,9,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.49,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,12,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.46,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,12,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.44,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,12,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.41,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,12,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.32,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,12,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.31,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,12,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.53,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,15,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.39,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,15,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.23,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,15,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.07,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,15,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.35,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,18,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.07,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,18,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2e,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.8,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,36,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.78,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,36,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.75,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,36,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.73,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,48,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.69,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,48,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.67,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,48,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.68,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,72,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.65,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,72,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.63,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,72,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.58,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,72,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.49,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,96,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.47,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,96,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.38,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,96,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.35,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,96,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.32,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,96,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.51,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,120,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.38,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,120,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.28,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,120,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.07,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,120,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.62,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,144,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.17,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,144,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.07,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,144,hours,NA,NA,NA,NA,NA,Donggang Pintung County Taiwan,colony,01/01/1987,1,decimal,22.783333,120.75,Aedes aegypti,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,L4,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.87,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,36,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.86,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,36,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.84,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,36,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.83,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,36,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.85,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,48,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.84,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,48,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.82,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,48,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.81,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,48,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.8,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,48,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.75,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,72,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.74,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,72,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.72,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,72,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.7,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,72,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.69,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,72,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.72,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,96,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.7,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,96,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.58,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,96,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.53,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,96,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.68,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,120,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.6,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,120,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.46,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,120,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.44,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,120,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.35,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,120,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.32,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,120,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.35,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,144,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.32,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,144,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.28,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,144,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,CHA001,survival,arcsine(survival rate + 0.005)exp(.5),0.23,proportion,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,cold exposure,exposure to cold temperatures,144,hours,NA,NA,NA,NA,NA,Linku Taoyuan County Taiwan,colony,01/01/2002,1,decimal,25.101667,121.363056,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,L4,NA,10,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 2f,Chang et al. 2007. Differential survival of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) Larvae Exposed to Low Temperatures in Taiwan. Journal of Medical Entomology 44:2,10.1603/0022-2585(2007)44[205:DSOAAA]2.0.CO,NA,NA,Veronica Andreo,veroandreo@gmail.com,veroandreo@gmail.com,TRUE,01/01/2007
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,18.13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,17.11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,16.09,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,16.09,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,16.09,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,14.13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,14.13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,15.09,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,15.12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,15.09,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,15.09,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,16.06,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,15.12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,22.07,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,22.07,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,22.07,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,22.13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,22.08,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,21.05,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,21.05,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,21.05,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,21.05,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,21.05,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,21.08,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,20.14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,20.06,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,20.06,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,20.06,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,20.06,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,20.09,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,19.12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,19.1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,11.07,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,11.07,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,11.07,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,11.07,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,11.07,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,11.07,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,11.07,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,10.05,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,10.05,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,10.08,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,9.08,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,10.02,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,20.06,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,20.04,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,19.07,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,19.07,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,19.04,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,19.02,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,19.1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,19.04,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,18.13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,18.14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,17.17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,17.11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,17.14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,17.11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,17.11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT001,development time,individual level duration from egg to pupa for first 50% of population,16.12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3a,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,95.15,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,95.15,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,95.15,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,95.15,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,95.15,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,90.16,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,90.09,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,90.09,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,90.09,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,90.09,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,90.16,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,90.17,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,90.17,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,85.31,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,85.25,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,80.18,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,80.19,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,80.19,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,80.19,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,80.26,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,75.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,75.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,75.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,75.21,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,75.21,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,70.22,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,55.05,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,90.16,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,90.16,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,97.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,95.28,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,95.29,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,95.29,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,92.69,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,92.69,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,92.76,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,92.9,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,92.77,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,92.77,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,90.08,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,90.09,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,90.09,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,90.16,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,90.16,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,90.16,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,90.09,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,90.09,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,90.1,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,90.1,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,87.77,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,87.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,87.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,87.77,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,87.64,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,85.24,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,85.32,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,85.25,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,82.78,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,82.79,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,82.79,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,82.79,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,82.79,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,82.79,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,82.79,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,80.18,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,80.19,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,80.26,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,77.66,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,77.52,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,77.66,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,77.81,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,77.67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,77.74,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,75.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,75.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,75.27,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,75.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,75.27,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,75.21,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,75.21,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,75.21,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,75.21,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,75.21,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,70.43,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,67.62,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,67.68,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,75.21,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,75.27,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,95.16,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,95.16,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,95.16,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,95.16,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,95.16,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,95.16,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,95.16,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,95.02,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,95.1,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,95.17,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,95.02,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,95.09,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,90.17,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,90.1,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,90.17,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,90.1,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,90.18,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,90.11,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,90.11,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,90.24,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,90.03,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,90.04,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,85.12,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,85.05,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,85.05,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,85.06,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,80.13,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,75.08,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,70.09,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,100,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,97.61,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,97.62,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,97.55,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,97.63,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,95.16,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,95.16,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,95.09,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,95.1,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,92.63,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,92.63,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,92.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,92.7,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,92.71,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,92.71,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,92.64,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,92.71,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,92.64,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,92.64,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,90.24,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,90.17,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,90.24,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,90.25,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,90.25,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,90.18,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,90.25,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,87.71,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,87.71,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,87.71,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,87.72,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,87.79,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,87.79,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,87.79,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,87.79,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,85.18,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,85.19,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,85.27,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,82.8,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,82.81,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,82.81,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,82.81,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,82.81,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,80.06,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,80.2,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,77.67,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,77.74,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,77.74,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,77.68,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,75.14,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,87.71,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,87.71,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT002,survival,percentage surviving to pupal stage from the initial larvae in each cup,92.63,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,larval,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3b,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,3.11,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.92,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.71,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.71,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.71,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.61,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.51,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.51,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.51,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.51,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.41,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.41,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.41,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.41,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.31,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.31,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.31,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.31,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.21,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.21,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.21,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.21,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.21,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.12,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.12,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.12,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.11,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.12,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.11,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.12,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.01,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.02,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.01,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.01,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.02,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.8,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.8,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.8,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.8,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.8,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.8,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.7,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.7,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.72,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.71,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.7,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.6,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.6,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.5,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.51,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.51,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.5,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.4,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.41,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.21,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.21,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.02,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.41,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.42,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.32,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.22,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.21,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.22,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.12,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.12,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.12,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.01,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.01,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.02,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.02,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.02,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.92,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.91,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.92,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.92,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.92,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.92,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.92,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.8,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.81,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.81,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.81,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.81,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.81,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.8,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.8,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.7,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.7,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.71,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.7,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.7,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.71,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.7,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.7,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.71,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.6,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.6,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.61,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.61,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.61,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.61,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.61,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.61,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.4,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.41,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.41,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.41,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.4,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.31,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.31,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.31,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.31,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.31,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.21,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.21,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.21,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.21,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.11,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.11,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.12,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.02,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.02,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.01,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,0.91,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,0.92,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,0.8,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.5,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.49,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.41,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.31,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.21,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.22,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.11,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.11,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.01,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.01,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.02,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.02,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.02,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.91,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.91,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.91,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.8,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.81,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.8,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.81,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.79,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.8,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.7,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.71,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.71,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.71,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.71,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.71,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.6,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.6,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.6,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.6,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.6,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.6,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.6,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.6,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.6,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.61,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.59,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.4,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.4,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.39,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.4,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.4,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.4,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.39,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.3,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.3,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.3,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.31,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.31,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.31,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.31,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.2,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.2,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.11,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.1,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.1,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.11,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.41,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,2.11,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.92,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.91,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.79,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.79,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.71,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.7,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.7,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.7,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.7,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.6,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.59,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.6,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.6,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.6,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.5,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.5,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.5,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.5,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.5,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.41,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.41,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.4,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.4,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.4,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.4,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.3,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.3,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.31,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.3,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.31,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.21,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.21,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.11,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.09,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.09,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.1,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.09,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.12,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.11,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.01,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,1.01,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,0.9,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,0.9,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,0.9,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,0.89,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,0.89,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,0.81,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,0.82,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,0.82,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,0.82,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,0.7,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,0.7,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,0.71,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,0.61,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,0.61,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,0.5,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT003,body size,individual live body weight post 48 hours starvation,0.2,mg,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3c,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,114,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,109,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,110,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,105,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,103,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,100,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,102,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,100,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,97,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,95,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,93,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,96,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,94,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,92,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,91,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,89,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,90,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,87,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,89,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,88,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,86,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,84,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,83,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,85,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,83,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,82,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,80,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,80,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,82,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,82,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,77,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,75,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,75,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,75,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,77,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,75,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,74,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,74,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,72,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,71,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,72,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,70,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,71,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,67,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,69,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,67,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,65,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,63,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,62,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,60,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,59,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,58,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,63,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,61,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,60,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,59,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,56,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,56,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,54,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,52,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,51,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,53,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,54,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,55,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,52,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,52,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,49,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,47,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,44,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,42,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,43,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,41,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,40,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,39,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,40,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,39,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,36,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,34,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,36,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,36,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,36,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,35,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,34,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,32,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,29,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,24,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,23,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,22,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,24,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,89,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,87,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,83,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,80,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,79,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,76,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,76,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,74,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,72,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,81,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,79,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,78,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,78,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,76,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,75,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,74,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,70,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,68,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,69,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,67,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,67,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,69,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,67,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,65,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,63,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,60,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,65,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,63,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,63,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,64,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,64,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,60,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,59,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,59,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,61,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,58,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,57,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,57,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,55,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,56,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,54,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,52,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,51,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,49,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,48,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,48,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,50,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,51,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,53,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,52,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,54,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,56,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,43,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,42,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,42,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,41,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,40,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,39,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,40,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,40,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,38,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,36,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,36,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,36,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,38,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,35,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,34,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,34,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,32,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,30,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,31,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,30,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,30,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,28,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,27,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,26,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,29,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,25,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,21,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,24,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,19,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,19,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,16,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,16,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,17,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,43,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,36,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,35,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,98,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,93,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,83,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,81,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,80,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,78,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,79,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,78,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,75,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,73,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,72,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,71,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,69,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,69,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,67,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,66,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,64,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,65,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,64,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,61,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,63,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,62,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,61,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,60,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,59,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,58,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,57,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,59,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,57,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,56,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,55,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,56,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,55,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,56,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,53,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,54,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,51,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,52,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,53,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,52,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,54,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,51,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,48,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,49,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,48,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,45,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,49,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,35,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,39,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,41,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,43,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,38,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,40,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,41,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,40,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,41,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,41,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,38,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,35,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,35,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,34,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,32,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,33,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,33,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,31,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,30,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,27,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,27,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,30,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,30,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,29,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,28,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,27,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,25,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,24,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,22,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,22,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,24,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,24,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,18,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,20,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,67,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,65,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,68,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,60,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,58,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,56,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,58,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,52,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,52,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,56,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,56,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,51,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,50,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,50,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,48,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,49,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,51,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,50,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,48,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,47,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,46,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,46,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,44,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,44,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,42,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,43,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,40,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,37,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,38,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,36,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,39,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,39,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,37,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,35,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,38,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,39,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,32,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,29,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,26,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,24,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,21,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,18,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,19,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,21,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,19,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,19,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,14,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,15,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,14,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,12,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,16,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,17,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,15,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,14,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,12,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,11,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,9,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,9,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,9,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,10,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,25,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,27,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,27,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,27,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,28,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,29,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,30,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,31,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,30,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,24,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,23,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,24,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,9,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,38,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,41,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,47,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,30,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
NA,DUT004,fecundity,individual total eggs produced over three days post blood feeding,23,eggs,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,larval density,larvae per ml,40,larvae/ml,NA,NA,NA,NA,NA,Merida Mexico,colony,NA,0,decimal,20.97,-89.62,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 3d,Dutra et al. 2024. Larval crowding enhances dengue virus loads in Aedes aegypti a relationship that might increase transmission in urban environments. PLOS Neglected Tropical Diseases 18:9 e0012482,10.1371/journal.pntd.0012482,NA,NA,Veronica Andreo,veroandreo@gmail.com,NA,TRUE,01/01/2024
MAY001,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,487562189.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY002,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,532338308.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY003,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,542288557.2,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY004,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,577114427.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY005,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,577114427.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY006,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,592039801,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY007,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,601990049.8,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY008,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,611940298.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY009,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,616915422.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY010,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,646766169.2,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY011,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,661691542.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY012,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,676616915.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY013,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,746268656.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY014,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY015,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY016,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY017,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY018,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY019,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY020,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY021,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY022,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY023,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY024,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY025,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY026,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY027,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY028,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY029,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY030,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY031,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY032,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY033,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY034,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY035,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY036,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY037,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY038,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY039,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY040,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY041,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY042,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY043,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY044,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY045,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY046,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY047,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY048,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY049,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY050,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY051,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY052,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY053,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY054,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY055,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,502487562.2,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY056,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,532338308.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY057,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,552238806,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY058,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,552238806,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY059,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,577114427.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY060,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,597014925.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY061,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,606965174.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY062,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,636815920.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY063,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,636815920.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY064,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,651741293.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY065,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,651741293.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY066,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,666666666.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY067,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,676616915.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY068,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,731343283.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY069,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY070,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY071,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY072,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY073,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY074,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY075,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY076,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY077,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY078,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY079,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY080,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY081,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY082,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY083,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY084,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY085,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY086,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY087,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY088,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY089,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY090,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY091,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY092,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY093,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY094,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY095,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY096,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY097,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY098,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY099,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY100,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY101,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY102,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY103,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY104,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY105,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY106,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY107,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY108,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY109,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY110,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY111,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,333333333.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY112,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,537313432.8,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY113,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,562189054.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY114,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,592039801,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY115,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,597014925.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY116,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,606965174.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY117,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,621890547.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY118,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,651741293.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY119,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,636815920.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY120,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,646766169.2,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY121,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,656716417.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY122,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,686567164.2,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY123,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,691542288.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY124,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,681592039.8,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY125,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,716417910.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY126,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY127,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY128,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY129,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY130,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY131,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY132,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY133,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY134,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY135,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY136,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY137,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY138,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY139,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY140,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY141,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY142,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY143,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY144,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY145,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY146,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY147,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY148,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY149,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY150,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY151,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY152,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY153,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY154,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY155,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY156,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY157,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY158,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY159,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY160,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY161,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY162,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY163,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY164,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,363184079.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY165,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,373134328.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY166,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,378109452.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY167,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,517412935.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY168,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,547263681.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY169,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,557213930.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY170,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,557213930.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY171,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,577114427.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY172,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,567164179.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY173,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,562189054.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY174,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,597014925.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY175,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,601990049.8,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY176,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,621890547.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY177,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,621890547.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY178,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,636815920.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY179,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,626865671.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY180,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,626865671.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY181,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,656716417.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY182,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,666666666.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY183,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,736318408,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY184,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY185,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY186,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY187,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY188,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY189,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY190,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY191,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY192,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY193,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY194,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY195,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY196,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY197,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY198,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY199,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY200,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY201,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY202,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY203,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY204,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY205,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY206,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY207,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY208,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY209,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY210,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY211,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY212,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY213,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY214,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY215,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY216,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY217,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY218,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY219,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY220,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY221,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY222,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY223,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY224,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY225,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY226,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY227,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY228,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY229,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY230,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY231,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY232,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY233,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY234,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY235,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY236,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY237,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY238,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY239,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY240,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY241,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY242,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY243,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY244,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY245,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY246,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY247,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY248,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY249,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY250,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY251,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY252,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY253,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY254,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY255,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY256,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY257,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY258,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY259,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY260,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,373134328.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY261,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,442786069.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY262,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,457711442.8,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY263,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,472636815.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY264,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,472636815.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY265,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,482587064.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY266,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,497512437.8,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY267,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,512437810.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY268,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,522388059.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY269,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,537313432.8,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY270,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,542288557.2,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY271,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,552238806,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY272,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,567164179.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY273,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,577114427.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY274,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,616915422.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY275,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY276,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY277,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY278,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY279,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY280,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY281,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY282,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY283,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY284,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY285,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY286,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY287,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY288,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY289,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY290,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY291,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY292,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY293,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY294,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY295,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY296,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY297,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY298,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY299,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY300,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY301,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY302,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY303,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY304,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY305,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY306,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY307,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY308,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY309,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY310,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY311,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY312,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY313,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY314,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY315,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY316,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY317,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,442786069.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY318,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,452736318.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY319,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,462686567.2,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY320,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,472636815.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY321,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,477611940.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY322,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,507462686.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY323,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,517412935.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY324,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,532338308.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY325,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,522388059.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY326,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,527363184.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY327,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,537313432.8,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY328,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,527363184.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY329,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,547263681.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY330,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,562189054.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY331,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,567164179.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY332,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,582089552.2,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY333,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,587064676.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY334,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,597014925.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY335,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,611940298.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY336,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,611940298.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY337,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,621890547.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY338,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,626865671.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY339,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY340,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY341,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY342,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY343,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY344,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY345,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY346,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY347,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY348,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY349,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY350,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY351,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY352,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY353,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY354,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY355,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY356,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY357,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY358,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY359,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY360,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY361,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY362,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY363,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY364,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY365,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY366,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY367,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY368,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY369,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY370,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,492537313.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY371,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,507462686.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY372,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,507462686.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY373,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,522388059.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY374,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,512437810.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY375,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,537313432.8,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY376,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,562189054.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY377,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,562189054.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY378,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,582089552.2,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY379,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,606965174.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY380,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,592039801,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY381,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,592039801,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY382,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,601990049.8,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY383,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,616915422.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY384,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,636815920.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY385,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,373134328.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY386,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,452736318.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY387,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,517412935.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY388,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,532338308.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY389,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,532338308.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY390,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,547263681.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY391,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,532338308.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY392,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,527363184.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY393,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,532338308.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY394,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,572139303.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY395,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,592039801,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY396,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,592039801,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY397,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,582089552.2,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY398,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,582089552.2,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY399,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,606965174.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY400,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,606965174.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY401,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,597014925.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY402,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,621890547.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY403,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,606965174.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY404,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,626865671.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY405,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,616915422.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY406,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,646766169.2,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY407,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,666666666.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY408,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,716417910.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY409,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY410,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY411,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY412,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY413,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY414,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY415,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY416,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY417,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY418,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY419,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY420,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY421,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY422,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY423,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY424,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY425,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY426,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY427,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY428,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY429,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY430,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY431,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY432,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY433,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY434,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY435,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY436,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY437,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY438,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY439,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY440,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
MAY441,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV001,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV002,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV003,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV004,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV005,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV006,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV007,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV008,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV009,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV010,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV011,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV012,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV013,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV014,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV015,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV016,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV017,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV018,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV019,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV020,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV021,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV022,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV023,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV024,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV025,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV026,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV027,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV028,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV029,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV030,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV031,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV032,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV033,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV034,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV035,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV036,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV037,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV038,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,484521835.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV039,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,494886677.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV040,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,532891100.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV041,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,539800995,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV042,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,601990049.8,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV043,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,608899944.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV044,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,622719734.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV045,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,633084577.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV046,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,639994472.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV047,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,657269209.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV048,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,657269209.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV049,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,660724157,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV050,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,684908789.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV051,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,695273631.8,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV052,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,681453841.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV053,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,674543946.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV054,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,716003316.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV055,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,729823106.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN001,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN002,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN003,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN004,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN005,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN006,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN007,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN008,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN009,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN010,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN011,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN012,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN013,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN014,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN015,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN016,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN017,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN018,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN019,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN020,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN021,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN022,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN023,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN024,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN025,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN026,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN027,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN028,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN029,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN030,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN031,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN032,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN033,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN034,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN035,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN036,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN037,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN038,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN039,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,422332780.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN040,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,474156992.8,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN041,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,532891100.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN042,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,557075732.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN043,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,567440574.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN044,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,584715312.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN045,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,584715312.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN046,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,595080154.8,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN047,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,598535102.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN048,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,605444997.2,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN049,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,615809839.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN050,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,622719734.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN051,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,664179104.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN052,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,684908789.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN053,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,684908789.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN054,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,691818684.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN055,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,705638474.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN056,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,716003316.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN057,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,719458264.2,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN058,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,740187949.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV001,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV002,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV003,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV004,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV005,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV006,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV007,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV008,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV009,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV010,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV011,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV012,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV013,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV014,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV015,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV016,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV017,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV018,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV019,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV020,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV021,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV022,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV023,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV024,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV025,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV026,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,453427307.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV027,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,484521835.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV028,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,491431730.2,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV029,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,494886677.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV030,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,529436152.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV031,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,536346047.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV032,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,557075732.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV033,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,605444997.2,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV034,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,622719734.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV035,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,633084577.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV036,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,657269209.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV037,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,657269209.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV038,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,716003316.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV039,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,501796572.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV040,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,515616362.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV041,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,529436152.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV042,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,608899944.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV043,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,633084577.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV044,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,629629629.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV045,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,664179104.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV046,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D only,671088999.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVE001,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVE002,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVE003,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVE004,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVE005,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVE006,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVE007,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVE008,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVE009,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVE010,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVE011,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVE012,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVE013,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVE014,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVE015,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVE016,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,501796572.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVE017,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,515616362.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVE018,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,529436152.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVE019,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,608899944.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVE020,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,633084577.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVE021,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,629629629.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVE022,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,664179104.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVE023,NA,infection rate,number of MAYV-D infection titers in midgut after exposure to MAYV-D and DENV,671088999.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV001,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV002,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV003,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV004,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV005,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV006,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV007,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV008,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV009,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV010,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV011,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV012,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV013,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV014,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV015,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV016,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV017,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV018,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV019,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV020,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV021,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV022,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV023,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV024,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV025,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV026,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV027,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV028,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV029,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV030,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV031,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV032,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV033,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV034,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV035,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV036,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV037,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV038,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV039,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV040,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV041,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,481066887.8,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV042,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,505251520.2,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV043,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,519071310.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV044,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,529436152.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV045,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,529436152.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV046,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,536346047.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV047,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,553620785,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV048,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,539800995,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV049,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,570895522.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV050,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,570895522.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV051,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,595080154.8,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV052,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,605444997.2,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV053,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,622719734.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV054,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,650359314.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV055,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,653814262,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV056,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,674543946.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV001,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV002,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV003,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV004,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV005,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV006,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV007,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV008,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV009,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV010,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV011,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV012,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV013,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV014,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV015,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV016,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV017,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV018,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV019,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV020,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV021,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV022,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV023,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV024,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV025,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV026,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV027,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV028,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV029,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV030,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV031,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV032,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV033,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV034,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV035,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV036,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV037,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV038,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV039,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,491431730.2,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV040,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,498341625.2,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV041,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,508706467.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV042,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,512161415.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV043,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,539800995,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV044,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,539800995,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV045,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,550165837.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV046,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,557075732.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV047,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,563985627.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV048,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,563985627.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV049,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,581260364.8,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV050,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,608899944.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV051,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,622719734.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV052,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,639994472.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV053,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,629629629.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV054,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,633084577.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV055,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,646904367.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV056,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,754007739.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM001,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM002,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM003,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM004,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM005,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM006,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM007,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM008,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM009,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM010,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM011,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM012,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM013,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM014,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM015,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM016,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM017,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM018,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM019,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM020,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM021,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM022,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM023,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM024,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM025,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM026,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM027,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM028,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM029,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,474156992.8,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM030,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,491431730.2,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM031,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,498341625.2,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM032,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,505251520.2,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM033,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,515616362.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM034,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,536346047.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM035,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,550165837.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM036,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,546710890,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM037,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,553620785,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM038,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,563985627.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM039,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,570895522.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM040,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,591625207.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM041,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,615809839.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM042,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,636539524.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM043,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV only,671088999.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBG001,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBG002,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBG003,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBG004,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBG005,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBG006,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBG007,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBG008,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBG009,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBG010,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBG011,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBG012,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBG013,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBG014,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBG015,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBG016,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,501796572.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBG017,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,563985627.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBG018,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,588170259.8,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBG019,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,598535102.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBG020,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,605444997.2,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBG021,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,626174682.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBG022,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,650359314.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBG023,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,657269209.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBG024,NA,infection rate,number of DENV infection titers in midgut after exposure to DENV and MAYV-D,653814262,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES001,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,317391304.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES002,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,439130434.8,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES003,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,526086956.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES004,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,556521739.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES005,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,569565217.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES006,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,582608695.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES007,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,608695652.2,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES008,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,608695652.2,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES009,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,695652173.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES010,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,721739130.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES011,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,756521739.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES012,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,795652173.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES013,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,847826087,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES014,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES015,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES016,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES017,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES018,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES019,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES020,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES021,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES022,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES023,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES024,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES025,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES026,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES027,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES028,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES029,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES030,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES031,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES032,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES033,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES034,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES035,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES036,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES037,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES038,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES039,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES040,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES041,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES042,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES043,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES044,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES045,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES046,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES047,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES048,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES049,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES050,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES051,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES052,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES053,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES054,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES055,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,282608695.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES056,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,382608695.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES057,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,404347826.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES058,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,447826087,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES059,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,482608695.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES060,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,495652173.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES061,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,573913043.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES062,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,586956521.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES063,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,621739130.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES064,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,700000000,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES065,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,708695652.2,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES066,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,747826087,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES069,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES070,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES071,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES072,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES073,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES074,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES075,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES076,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES077,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES078,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES079,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES080,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES081,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES082,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES083,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES084,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES085,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES086,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES087,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES088,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES089,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES090,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES091,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES092,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES093,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES094,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES095,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES096,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES097,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES098,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES099,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES100,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES101,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES102,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES103,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES104,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES105,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES106,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES107,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES108,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES109,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES110,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES111,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,460869565.2,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES112,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,543478260.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES113,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,591304347.8,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES114,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,604347826.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES115,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,634782608.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES116,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,643478260.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES117,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,652173913,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES118,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,660869565.2,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES119,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,665217391.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES120,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,678260869.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES121,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,756521739.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES126,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES127,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES128,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES129,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES130,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES131,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES132,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES133,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES134,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES135,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES136,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES137,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES138,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES139,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES140,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES141,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES142,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES143,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES144,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES145,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES146,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES147,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES148,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES149,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES150,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES151,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES152,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES153,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES154,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES155,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES156,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES157,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES158,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES159,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES160,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES161,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES162,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES163,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES164,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,539130434.8,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES165,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,604347826.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES166,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,630434782.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES167,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,643478260.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES168,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,682608695.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES169,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,686956521.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES170,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,765217391.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES184,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES185,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES186,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES187,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES188,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES189,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES190,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES191,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES192,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES193,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES194,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES195,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES196,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES197,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES198,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES199,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES200,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES201,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES202,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES203,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES204,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES205,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES206,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES207,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES208,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES209,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES210,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES211,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES212,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES213,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES214,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES215,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES216,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES217,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES218,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES219,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES220,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES221,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES222,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES223,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES224,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES225,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES226,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES227,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES228,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES229,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES230,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES231,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES232,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES233,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES234,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES235,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES236,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES237,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES238,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES239,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES240,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES241,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES242,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES243,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES244,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES245,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES246,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES247,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES248,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES249,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES250,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES251,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES252,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES253,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES254,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES255,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES256,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES257,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES258,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES259,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES260,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,282608695.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES261,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,456521739.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES262,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,560869565.2,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES263,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,573913043.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES264,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,613043478.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES265,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,621739130.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES266,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,630434782.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES267,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,643478260.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES268,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,665217391.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES275,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES276,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES277,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES278,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES279,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES280,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES281,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES282,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES283,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES284,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES285,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES286,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES287,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES288,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES289,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES290,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES291,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES292,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES293,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES294,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES295,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES296,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES297,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES298,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES299,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES300,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES301,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES302,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES303,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES304,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES305,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES306,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES307,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES308,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES309,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES310,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES311,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES312,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES313,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES314,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES315,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES316,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES317,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,378260869.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES318,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,439130434.8,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES319,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,473913043.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES320,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,473913043.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES321,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,486956521.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES322,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,500000000,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES323,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,500000000,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES324,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,517391304.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES325,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,521739130.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES326,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,530434782.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES327,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,543478260.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES328,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,591304347.8,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES329,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,621739130.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES330,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,630434782.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES331,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,643478260.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES332,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,656521739.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES333,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,652173913,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES334,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,691304347.8,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES339,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES340,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES341,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES342,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES343,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES344,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES345,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES346,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES347,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES348,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES349,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES350,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES351,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES352,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES353,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES354,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES355,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES356,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES357,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES358,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES359,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES360,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES361,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES362,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES363,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES364,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES365,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES366,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES367,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES368,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES369,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES370,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,352173913,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES371,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,569565217.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES372,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,604347826.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES373,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,626086956.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES374,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,656521739.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES375,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,669565217.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES376,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,678260869.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES377,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,686956521.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES378,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,695652173.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES379,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,717391304.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES380,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,726086956.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES381,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,734782608.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES382,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,743478260.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES383,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,756521739.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES409,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES410,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES411,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES412,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES413,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES414,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES415,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES416,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES417,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES418,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES419,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES420,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES421,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES422,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES423,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES424,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES425,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES426,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES427,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES428,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES429,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES430,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES431,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES432,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES433,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES434,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES435,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES436,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES437,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES438,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES439,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES440,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES441,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES442,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,517391304.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES443,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,534782608.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES444,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,543478260.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES445,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,560869565.2,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES446,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,560869565.2,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES447,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,600000000,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES448,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,595652173.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES449,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,600000000,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES450,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,630434782.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES451,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,647826087,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES452,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,647826087,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES453,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,656521739.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES454,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,643478260.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES455,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,643478260.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES456,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,682608695.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES457,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,691304347.8,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES458,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,713043478.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES459,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,726086956.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES460,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,730434782.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES461,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,739130434.8,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES462,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,726086956.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES463,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,726086956.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES464,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,717391304.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES465,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,726086956.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES466,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,752173913,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DES467,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,765217391.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV001,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV002,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV003,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV004,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV005,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV006,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV007,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV008,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV009,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV010,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV011,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV012,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV013,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV014,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV015,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV016,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV017,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV018,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV019,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV020,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV021,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV022,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV023,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV024,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV025,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV026,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV027,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV028,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV029,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV030,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV031,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV032,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV033,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV034,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV035,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV036,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV037,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV038,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,434782608.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV039,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,460869565.2,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV040,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,591304347.8,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV041,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,604347826.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV042,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,621739130.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV043,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,630434782.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV044,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,647826087,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV045,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,669565217.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV046,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,682608695.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV047,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,691304347.8,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV048,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,704347826.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV049,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,717391304.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV050,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,734782608.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV051,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,747826087,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV052,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,752173913,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEV053,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,765217391.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN001,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN002,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN003,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN004,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN005,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN006,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN007,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN008,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN009,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN010,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN011,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN012,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN013,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN014,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN015,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN016,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN017,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN018,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN019,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN020,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN021,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN022,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN023,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN024,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN025,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN026,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN027,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN028,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN029,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN030,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN031,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN032,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN033,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN034,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN035,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN036,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN037,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN038,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN039,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,404347826.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN040,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,495652173.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN041,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,582608695.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN042,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,600000000,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN043,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,630434782.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN044,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,643478260.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN045,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,652173913,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN046,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,682608695.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN047,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,691304347.8,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN048,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,708695652.2,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN049,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,713043478.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN050,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,734782608.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN051,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,726086956.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN052,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,739130434.8,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN053,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,726086956.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN054,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,721739130.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN055,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,713043478.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEN056,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,791304347.8,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV001,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV002,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV003,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV004,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV005,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV006,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV007,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV008,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV009,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV010,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV011,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV012,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV013,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV014,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV015,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV016,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV017,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV018,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV019,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV020,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV021,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV022,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV023,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV024,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV025,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV026,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,543478260.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV027,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,556521739.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV028,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,565217391.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV029,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,621739130.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV030,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,639130434.8,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV031,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,647826087,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV032,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,660869565.2,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV033,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,634782608.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV034,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,678260869.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV035,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,682608695.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV036,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,691304347.8,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV037,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,695652173.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV038,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,734782608.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV039,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,769565217.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVE001,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVE002,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVE003,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVE004,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVE005,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVE006,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVE007,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVE008,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVE009,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVE010,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVE011,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVE012,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVE013,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVE014,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVE015,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVE016,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,543478260.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVE017,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,565217391.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVE018,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,608695652.2,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVE019,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,643478260.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVE020,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,643478260.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVE021,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,660869565.2,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVE022,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,730434782.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVE023,NA,dissemination rate,number of MAYV-D infection titers in carcass after exposure to MAYV-D only,726086956.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV001,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV002,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV003,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV004,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV005,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV006,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV007,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV008,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV009,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV010,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV011,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV012,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV013,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV014,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV015,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV016,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV017,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV018,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV019,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV020,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV021,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV022,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV023,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV024,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV025,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV026,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV027,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV028,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV029,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV030,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV031,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV032,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV033,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV034,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV035,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV036,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV037,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV038,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV039,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV040,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV041,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,386956521.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV042,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,513043478.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV043,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,526086956.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV044,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,556521739.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV045,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,556521739.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV046,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,573913043.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV047,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,582608695.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV048,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,604347826.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV049,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,604347826.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV050,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,617391304.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV051,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,600000000,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV052,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,639130434.8,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV053,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,652173913,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV054,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,665217391.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV055,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,656521739.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV056,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,639130434.8,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DVV057,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,656521739.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV001,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV002,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV003,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV004,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV005,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV006,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV007,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV008,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV009,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV010,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV011,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV012,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV013,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV014,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV015,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV016,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV017,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV018,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV019,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV020,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV021,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV022,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV023,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV024,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV025,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV026,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV027,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV028,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV029,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV030,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV031,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV032,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV033,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV034,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV035,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV036,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV037,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV038,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV039,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,500000000,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV040,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,543478260.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV041,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,556521739.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV042,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,582608695.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV043,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,613043478.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV044,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,613043478.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV045,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,626086956.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV046,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,617391304.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV047,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,613043478.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV048,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,626086956.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV049,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,626086956.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV050,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,630434782.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV051,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,643478260.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV052,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,652173913,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV053,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,665217391.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV054,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,652173913,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV055,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,634782608.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV056,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,643478260.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV057,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,647826087,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV058,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,660869565.2,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV059,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,665217391.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV060,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,673913043.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV061,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,726086956.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DPV062,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,734782608.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM001,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM002,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM003,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM004,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM005,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM006,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM007,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM008,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM009,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM010,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM011,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM012,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM013,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM014,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM015,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM016,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM017,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM018,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM019,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM020,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM021,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM022,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM023,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM024,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM025,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM026,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM027,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,600000000,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM028,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,643478260.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM029,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,647826087,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM030,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,647826087,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM031,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,656521739.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM032,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,656521739.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM033,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,669565217.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM034,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,669565217.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM035,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,678260869.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM036,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,682608695.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM037,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,713043478.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM038,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,730434782.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM039,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,739130434.8,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM040,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,734782608.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM041,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,730434782.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM042,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,730434782.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM043,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,739130434.8,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM044,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,743478260.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DNM045,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV only,765217391.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBG001,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBG002,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBG003,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBG004,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBG005,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBG006,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBG007,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBG008,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBG009,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBG010,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBG011,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBG012,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBG013,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBG014,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBG015,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBG016,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,656521739.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBG017,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,665217391.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBG018,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,682608695.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBG019,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,691304347.8,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBG020,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,713043478.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBG021,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,730434782.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBG022,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,743478260.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBG023,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,765217391.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBG024,NA,dissemination rate,number of DENV infection titers in carcass after exposure to DENV and MAYV-D,778260869.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEe001,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEe002,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEe003,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEe004,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEe005,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEe006,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEe007,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEe008,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEe009,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEe010,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEe011,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEe012,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEe013,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEe014,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEe015,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEe016,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEe017,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEe018,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEe019,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEe020,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEe021,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEe022,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEe023,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEe024,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEe025,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEe026,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEe027,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEe028,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEe029,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEe030,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEe031,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEe032,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEe033,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEe034,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEe035,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEe036,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEe037,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEe038,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEe039,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEe040,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEe041,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEe042,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,218614718.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEf001,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEf002,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEf003,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEf004,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEf005,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEf006,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEf007,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEf008,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEf009,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEf010,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEf011,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEf012,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEf013,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEf014,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEf015,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEf016,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEf017,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEf018,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEf019,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEf020,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEf021,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEf022,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEf023,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEf024,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEf025,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEf026,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEf027,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEf028,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEf029,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEf030,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEf031,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEf032,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEf033,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEf034,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEf035,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEf036,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEf037,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEf038,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEf039,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEf040,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEf041,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEf042,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEf043,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,359307359,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DESs001,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DESs002,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DESs003,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DESs004,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DESs005,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DESs006,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DESs007,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DESs008,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DESs009,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DESs010,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DESs011,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DESs012,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DESs013,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DESs014,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DESs015,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DESs016,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DESs017,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DESs018,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DESs019,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DESs020,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DESs021,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DESs022,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DESs023,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DESs024,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DESs025,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DESs026,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DESs027,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DESs028,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DESs029,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DESs030,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DESs031,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DESs032,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DESs033,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DESs034,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DESs035,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DESs036,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DESs037,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DESs038,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DESs039,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,255411255.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DESs040,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,268398268.4,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DESs041,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,303030303,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DESs042,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,309523809.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEDd001,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEDd002,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEDd003,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEDd004,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEDd005,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEDd006,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEDd007,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEDd008,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEDd009,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEDd010,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEDd011,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEDd012,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEDd013,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEDd014,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEDd015,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEDd016,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEDd017,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEDd018,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEDd019,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEDd020,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEDd021,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEDd022,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEDd023,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEDd024,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEDd025,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEDd026,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEDd027,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEDd028,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEDd029,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEDd030,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEDd031,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEDd032,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEDd033,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEDd034,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,253246753.2,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEDd035,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,261904761.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEDd036,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,283549783.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEDd037,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,337662337.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEW001,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEW002,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEW003,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEW004,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEW005,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEW006,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEW007,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEW008,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEW009,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEW010,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEW011,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEW012,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEW013,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEW014,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEW015,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEW016,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEW017,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEW018,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEW019,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEW020,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEW021,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEW022,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEW023,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEW024,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEW025,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEW026,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEW027,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEW028,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEW029,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEW030,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEW031,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEW032,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEW033,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEW034,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEW035,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEW036,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEW037,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEW038,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEW039,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEW040,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEW041,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEW042,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEW043,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEW044,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,194805194.8,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEW045,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,218614718.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEY001,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEY002,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEY003,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEY004,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEY005,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEY006,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEY007,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEY008,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEY009,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEY010,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEY011,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEY012,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEY013,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEY014,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEY015,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEY016,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEY017,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEY018,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEY019,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEY020,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEY021,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEY022,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEY023,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEY024,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEY025,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEY026,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEY027,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEY028,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEY029,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEY030,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEY031,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEY032,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEY033,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEY034,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEY035,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEY036,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEY037,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEY038,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEY039,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEY040,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEY041,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEY042,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEY043,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,214285714.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEY044,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,227272727.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEY045,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,264069264.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEc001,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEc002,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEc003,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEc004,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEc005,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEc006,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEc007,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEc008,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEc009,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEc010,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEc011,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEc012,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEc013,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEc014,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEc015,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEc016,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEc017,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEc018,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEc019,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEc020,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEc021,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEc022,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEc023,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEc024,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEc025,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEc026,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEc027,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEc028,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEc029,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEc030,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEc031,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEc032,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,272727272.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEc033,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,277056277.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEc034,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,285714285.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEc035,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,296536796.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEc036,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,305194805.2,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEc037,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,313852813.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEc038,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,322510822.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEAa001,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEAa002,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEAa003,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEAa004,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEAa005,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEAa006,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEAa007,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEAa008,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEAa009,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEAa010,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEAa011,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEAa012,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEAa013,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEAa014,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEAa015,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEAa016,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEAa017,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEAa018,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEAa019,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEAa020,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEAa021,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEAa022,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEAa023,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEAa024,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEAa025,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEAa026,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEAa027,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEAa028,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEAa029,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEAa030,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEAa031,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEAa032,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEAa033,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEAa034,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,220779220.8,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEAa035,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,257575757.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEAa036,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,274891774.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEAa037,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,305194805.2,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEAa038,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,378787878.8,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBc001,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBc002,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBc003,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBc004,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBc005,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBc006,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBc007,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBc008,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBc009,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBc010,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBc011,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBc012,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBc013,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBc014,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBc015,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBc016,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBc017,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBc018,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBc019,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBc020,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBc021,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBc022,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBc023,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBc024,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBc025,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBc026,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBc027,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBc028,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBc029,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBc030,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBc031,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBc032,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBc033,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBc034,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBc035,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBc036,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBc037,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBc038,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBc039,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBc040,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBc041,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBc042,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,236111111.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBc043,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,305555555.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBg001,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBg002,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBg003,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBg004,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBg005,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBg006,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBg007,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBg008,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBg009,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBg010,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBg011,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBg012,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBg013,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBg014,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBg015,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBg016,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBg017,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBg018,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBg019,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBg020,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBg021,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBg022,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBg023,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBg024,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBg025,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBg026,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBg027,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBg028,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBg029,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBg030,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBg031,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBg032,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBg033,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBg034,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBg035,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBg036,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBg037,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBg038,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBg039,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBg040,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBg041,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBg042,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBg043,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,166666666.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBg044,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,199074074.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBg045,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,233796296.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBg046,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,273148148.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DBg047,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,289351851.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEUv001,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEUv002,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEUv003,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEUv004,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEUv005,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEUv006,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEUv007,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEUv008,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEUv009,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEUv010,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEUv011,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEUv012,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEUv013,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEUv014,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEUv015,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEUv016,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEUv017,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEUv018,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEUv019,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEUv020,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEUv021,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEUv022,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEUv023,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEUv024,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEUv025,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEUv026,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEUv027,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEUv028,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEUv029,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEUv030,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEUv031,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEUv032,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEUv033,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEUv034,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEUv035,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEUv036,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEUv037,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEUv038,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEUv039,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,273148148.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEUv040,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,305555555.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEUv041,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,312500000,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEUv042,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D only,321759259.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEKk001,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEKk002,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEKk003,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEKk004,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEKk005,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEKk006,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEKk007,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEKk008,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEKk009,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEKk010,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEKk011,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEKk012,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEKk013,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEKk014,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEKk015,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEKk016,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEKk017,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEKk018,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEKk019,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEKk020,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEKk021,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEKk022,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEKk023,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEKk024,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEKk025,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEKk026,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEKk027,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEKk028,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEKk029,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEKk030,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEKk031,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEKk032,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEKk033,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEKk034,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,231481481.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEKk035,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,259259259.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEKk036,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,277777777.8,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEKk037,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,287037037,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEKk038,NA,transmission rate,number of MAYV-D infection titers in saliva after exposure to MAYV-D and DENV,412037037,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEJ001,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEJ002,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEJ003,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEJ004,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEJ005,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEJ006,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEJ007,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEJ008,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEJ009,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEJ010,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEJ011,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEJ012,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEJ013,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEJ014,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEJ015,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEJ016,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEJ017,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEJ018,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEJ019,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEJ020,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEJ021,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEJ022,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEJ023,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEJ024,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEJ025,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEJ026,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEJ027,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEJ028,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEJ029,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEJ030,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEJ031,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEJ032,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEJ033,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEJ034,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEJ035,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEJ036,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEJ037,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEJ038,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEJ039,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEJ040,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEJ041,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEJ042,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEJ043,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEx001,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEx002,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEx003,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEx004,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEx005,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEx006,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEx007,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEx008,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEx009,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEx010,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEx011,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEx012,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEx013,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEx014,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEx015,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEx016,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEx017,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEx018,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEx019,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEx020,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEx021,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEx022,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEx023,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEx024,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEx025,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEx026,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEx027,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEx028,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEx029,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEx030,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEx031,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEx032,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEx033,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEx034,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEx035,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEx036,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEx037,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEx038,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEx039,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEx040,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEx041,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEx042,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEx043,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,238425925.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEx044,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,259259259.3,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
Dwc001,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
Dwc002,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
Dwc003,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
Dwc004,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
Dwc005,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
Dwc006,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
Dwc007,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
Dwc008,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
Dwc009,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
Dwc010,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
Dwc011,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
Dwc012,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
Dwc013,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
Dwc014,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
Dwc015,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
Dwc016,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
Dwc017,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
Dwc018,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
Dwc019,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
Dwc020,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
Dwc021,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
Dwc022,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
Dwc023,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
Dwc024,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
Dwc025,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
Dwc026,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
Dwc027,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
Dwc028,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
Dwc029,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
Dwc030,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
Dwc031,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
Dwc032,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,201388888.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
Dwc033,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,236111111.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
Dwc034,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,284722222.2,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
Dwc035,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,356481481.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
Dwc036,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,363425925.9,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
Dwc037,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV only,379629629.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEHH001,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEHH002,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEHH003,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEHH004,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEHH005,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEHH006,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEHH007,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEHH008,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEHH009,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEHH010,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEHH011,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEHH012,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEHH013,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEHH014,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEHH015,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEHH016,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEHH017,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEHH018,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEHH019,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEHH020,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEHH021,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEHH022,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEHH023,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEHH024,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEHH025,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEHH026,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEHH027,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEHH028,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEHH029,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEHH030,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEHH031,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEHH032,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEHH033,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,0,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEHH034,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,203703703.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEHH035,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,217592592.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEHH036,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,231481481.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEHH037,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,273148148.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEHH038,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,293981481.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEHH039,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,303240740.7,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEHH040,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,305555555.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEHH041,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,331018518.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEHH042,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,361111111.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEHH043,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,386574074.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEHH044,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,393518518.5,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEHH045,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,423611111.1,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
DEHH046,NA,transmission rate,number of DENV infection titers in saliva after exposure to DENV and MAYV-D,442129629.6,viral titers,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,days post infection,duration between exposure to pathogen and testing for presence of viral titers,7,days,NA,NA,NA,NA,NA,Manassas Virginia USA,colony (Liverpool strain),NA,0,decimal,38.7500521,-77.48031842,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,figure 1,Terradas et al. 2024. Temperature affects viral kinetics and vectorial capacity of Aedes aegypti mosquitoes co-infected with Mayaro and Dengue viruses. Parasites and Vectors 17:73,NA,NA,NA,Paul Huxley,phuxly@gmail.com,mosquitoes were reared at interactor1growthtemp. upon emergence they were transferred to interactor1temp. at 7 days old mosquitoes were fed virus-spiked blood containing 5 x 10^6 ffu/ml per virus (i.e either MAYV or DENV or both),TRUE,01/01/2024
NA,NA,EIP (extrinsic incubation period),duration until first transmision/infection of SG,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Athens Greece,field,NA,0,decimal,37.98445268,23.72752011,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,not known,Blanc 1930. Recherches experimentales sur la dengue. Ann. l'Inst. Pasteur 44,NA,Tjaden et al. 2013. Extrinsic Incubation Period of Dengue: Knowledge Backlog and Applications of Temperature Dependence. Plos Neg Trop. Dis 7,10.1371/journal.pntd.0002207,Paul Huxley,phuxly@gmail.com,mosquitoes fed on DENV (type unknown) infected animal. human blood used. transmission occurred in animals,TRUE,01/01/1930
NA,NA,EIP (extrinsic incubation period),duration until first transmision/infection of SG,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,colony,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,22.5,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,not known,Blanc 1930. Recherches experimentales sur la dengue. Ann. l'Inst. Pasteur 44,NA,Tjaden et al. 2013. Extrinsic Incubation Period of Dengue: Knowledge Backlog and Applications of Temperature Dependence. Plos Neg Trop. Dis 7,10.1371/journal.pntd.0002207,Paul Huxley,phuxly@gmail.com,mosquitoes fed on DENV (type unknown) infected animal. human blood used. transmission occurred in animals,TRUE,01/01/1930
NA,NA,EIP (extrinsic incubation period),duration until first transmision/infection of SG,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,British Columbia Research Council Richmond Canada,colony,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McLean et al. 1974. Vector capability of Aedes aegypti mosquitoes for California encephalitis and dengue viruses at various temperatures. Can J Microbiol 20: 255�262,10.1139/m74-040,Tjaden et al. 2013. Extrinsic Incubation Period of Dengue: Knowledge Backlog and Applications of Temperature Dependence. Plos Neg Trop. Dis 7,10.1371/journal.pntd.0002207,Paul Huxley,phuxly@gmail.com,lab colony at the British Columbia Research Council lab. mosquitoes fed on DENV-2 artificial blood meal. transmission occurred in animals (sheep). salivary glands contained virus. infection path was feeding,TRUE,01/01/1974
NA,NA,EIP (extrinsic incubation period),duration until first transmision/infection of SG,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,British Columbia Research Council Richmond Canada,colony,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McLean et al. 1974. Vector capability of Aedes aegypti mosquitoes for California encephalitis and dengue viruses at various temperatures. Can J Microbiol 20: 255�262,10.1139/m74-040,Tjaden et al. 2013. Extrinsic Incubation Period of Dengue: Knowledge Backlog and Applications of Temperature Dependence. Plos Neg Trop. Dis 7,10.1371/journal.pntd.0002207,Paul Huxley,phuxly@gmail.com,lab colony at the British Columbia Research Council lab. mosquitoes fed on DENV-2 artificial blood meal. transmission occurred in animals (sheep). salivary glands contained virus. infection path was feeding,TRUE,01/01/1974
NA,NA,EIP (extrinsic incubation period),duration until first transmision/infection of SG,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,British Columbia Research Council Richmond Canada,colony,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McLean et al. 1974. Vector capability of Aedes aegypti mosquitoes for California encephalitis and dengue viruses at various temperatures. Can J Microbiol 20: 255�262,10.1139/m74-040,Tjaden et al. 2013. Extrinsic Incubation Period of Dengue: Knowledge Backlog and Applications of Temperature Dependence. Plos Neg Trop. Dis 7,10.1371/journal.pntd.0002207,Paul Huxley,phuxly@gmail.com,lab colony at the British Columbia Research Council lab. mosquitoes fed on DENV-2 artificial blood meal. transmission occurred in animals (sheep). salivary glands contained virus. infection path was feeding,TRUE,01/01/1974
NA,NA,EIP (extrinsic incubation period),duration until first transmision/infection of SG,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,British Columbia Research Council Richmond Canada,colony,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,27,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McLean et al. 1974. Vector capability of Aedes aegypti mosquitoes for California encephalitis and dengue viruses at various temperatures. Can J Microbiol 20: 255�262,10.1139/m74-040,Tjaden et al. 2013. Extrinsic Incubation Period of Dengue: Knowledge Backlog and Applications of Temperature Dependence. Plos Neg Trop. Dis 7,10.1371/journal.pntd.0002207,Paul Huxley,phuxly@gmail.com,lab colony at the British Columbia Research Council lab. mosquitoes fed on DENV-2 artificial blood meal. transmission occurred in animals (sheep). salivary glands contained virus. infection path was feeding,TRUE,01/01/1974
NA,NA,EIP (extrinsic incubation period),duration until first transmision/infection of SG,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,British Columbia Research Council Richmond Canada,colony,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McLean et al. 1974. Vector capability of Aedes aegypti mosquitoes for California encephalitis and dengue viruses at various temperatures. Can J Microbiol 20: 255�262,10.1139/m74-040,Tjaden et al. 2013. Extrinsic Incubation Period of Dengue: Knowledge Backlog and Applications of Temperature Dependence. Plos Neg Trop. Dis 7,10.1371/journal.pntd.0002207,Paul Huxley,phuxly@gmail.com,lab colony at the British Columbia Research Council lab. mosquitoes fed on DENV-2 artificial blood meal. transmission occurred in animals (sheep). salivary glands contained virus. infection path was feeding,TRUE,01/01/1974
NA,NA,EIP (extrinsic incubation period),duration until first transmision/infection of SG,35,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,British Columbia Research Council Richmond Canada,colony,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McLean et al. 1974. Vector capability of Aedes aegypti mosquitoes for California encephalitis and dengue viruses at various temperatures. Can J Microbiol 20: 255�262,10.1139/m74-040,Tjaden et al. 2013. Extrinsic Incubation Period of Dengue: Knowledge Backlog and Applications of Temperature Dependence. Plos Neg Trop. Dis 7,10.1371/journal.pntd.0002207,Paul Huxley,phuxly@gmail.com,lab colony at the British Columbia Research Council lab. mosquitoes fed on DENV-2 artificial blood meal. transmission occurred in animals (sheep). salivary glands contained virus. infection path was feeding,TRUE,01/01/1974
NA,NA,EIP (extrinsic incubation period),duration until first transmision/infection of SG,13.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,British Columbia Research Council Richmond Canada,colony,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McLean et al. 1974. Vector capability of Aedes aegypti mosquitoes for California encephalitis and dengue viruses at various temperatures. Can J Microbiol 20: 255�262,10.1139/m74-040,Tjaden et al. 2013. Extrinsic Incubation Period of Dengue: Knowledge Backlog and Applications of Temperature Dependence. Plos Neg Trop. Dis 7,10.1371/journal.pntd.0002207,Paul Huxley,phuxly@gmail.com,lab colony at the British Columbia Research Council lab. mosquitoes were infected with DENV-2 via intrathoracic injection. salivary glands contained virus.,TRUE,01/01/1974
NA,NA,EIP (extrinsic incubation period),duration until first transmision/infection of SG,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,British Columbia Research Council Richmond Canada,colony,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McLean et al. 1974. Vector capability of Aedes aegypti mosquitoes for California encephalitis and dengue viruses at various temperatures. Can J Microbiol 20: 255�262,10.1139/m74-040,Tjaden et al. 2013. Extrinsic Incubation Period of Dengue: Knowledge Backlog and Applications of Temperature Dependence. Plos Neg Trop. Dis 7,10.1371/journal.pntd.0002207,Paul Huxley,phuxly@gmail.com,lab colony at the British Columbia Research Council lab. mosquitoes were infected with DENV-2 via intrathoracic injection. salivary glands contained virus.,TRUE,01/01/1974
NA,NA,EIP (extrinsic incubation period),duration until first transmision/infection of SG,5.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,British Columbia Research Council Richmond Canada,colony,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McLean et al. 1974. Vector capability of Aedes aegypti mosquitoes for California encephalitis and dengue viruses at various temperatures. Can J Microbiol 20: 255�262,10.1139/m74-040,Tjaden et al. 2013. Extrinsic Incubation Period of Dengue: Knowledge Backlog and Applications of Temperature Dependence. Plos Neg Trop. Dis 7,10.1371/journal.pntd.0002207,Paul Huxley,phuxly@gmail.com,lab colony at the British Columbia Research Council lab. mosquitoes were infected with DENV-2 via intrathoracic injection. salivary glands contained virus.,TRUE,01/01/1974
NA,NA,EIP (extrinsic incubation period),duration until first transmision/infection of SG,26,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,British Columbia Research Council Richmond Canada,colony,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McLean et al. 1974. Vector capability of Aedes aegypti mosquitoes for California encephalitis and dengue viruses at various temperatures. Can J Microbiol 20: 255�262,10.1139/m74-040,Tjaden et al. 2013. Extrinsic Incubation Period of Dengue: Knowledge Backlog and Applications of Temperature Dependence. Plos Neg Trop. Dis 7,10.1371/journal.pntd.0002207,Paul Huxley,phuxly@gmail.com,lab colony at the British Columbia Research Council lab. mosquitoes were infected with DENV-2 via intrathoracic injection. salivary glands contained virus.,TRUE,01/01/1974
NA,NA,EIP (extrinsic incubation period),duration until first transmision/infection of SG,13.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,British Columbia Research Council Richmond Canada,colony,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McLean et al. 1974. Vector capability of Aedes aegypti mosquitoes for California encephalitis and dengue viruses at various temperatures. Can J Microbiol 20: 255�262,10.1139/m74-040,Tjaden et al. 2013. Extrinsic Incubation Period of Dengue: Knowledge Backlog and Applications of Temperature Dependence. Plos Neg Trop. Dis 7,10.1371/journal.pntd.0002207,Paul Huxley,phuxly@gmail.com,lab colony at the British Columbia Research Council lab. mosquitoes were infected with DENV-2 via intrathoracic injection. salivary glands contained virus.,TRUE,01/01/1974
NA,NA,EIP (extrinsic incubation period),duration until first transmision/infection of SG,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,British Columbia Research Council Richmond Canada,colony,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McLean et al. 1974. Vector capability of Aedes aegypti mosquitoes for California encephalitis and dengue viruses at various temperatures. Can J Microbiol 20: 255�262,10.1139/m74-040,Tjaden et al. 2013. Extrinsic Incubation Period of Dengue: Knowledge Backlog and Applications of Temperature Dependence. Plos Neg Trop. Dis 7,10.1371/journal.pntd.0002207,Paul Huxley,phuxly@gmail.com,lab colony at the British Columbia Research Council lab. mosquitoes were infected with DENV-2 via intrathoracic injection. salivary glands contained virus.,TRUE,01/01/1974
NA,NA,EIP (extrinsic incubation period),duration until first transmision/infection of SG,3.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,British Columbia Research Council Richmond Canada,colony,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McLean et al. 1974. Vector capability of Aedes aegypti mosquitoes for California encephalitis and dengue viruses at various temperatures. Can J Microbiol 20: 255�262,10.1139/m74-040,Tjaden et al. 2013. Extrinsic Incubation Period of Dengue: Knowledge Backlog and Applications of Temperature Dependence. Plos Neg Trop. Dis 7,10.1371/journal.pntd.0002207,Paul Huxley,phuxly@gmail.com,lab colony at the British Columbia Research Council lab. mosquitoes were infected with DENV-2 via intrathoracic injection. salivary glands contained virus.,TRUE,01/01/1974
NA,NA,EIP (extrinsic incubation period),duration until first transmision/infection of SG,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,British Columbia Research Council Richmond Canada,colony,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McLean et al. 1974. Vector capability of Aedes aegypti mosquitoes for California encephalitis and dengue viruses at various temperatures. Can J Microbiol 20: 255�262,10.1139/m74-040,Tjaden et al. 2013. Extrinsic Incubation Period of Dengue: Knowledge Backlog and Applications of Temperature Dependence. Plos Neg Trop. Dis 7,10.1371/journal.pntd.0002207,Paul Huxley,phuxly@gmail.com,lab colony at the British Columbia Research Council lab. mosquitoes were infected with DENV-2 via intrathoracic injection. salivary glands contained virus.,TRUE,01/01/1974
NA,NA,EIP (extrinsic incubation period),duration until first transmision/infection of SG,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,British Columbia Research Council Richmond Canada,colony,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McLean et al. 1974. Vector capability of Aedes aegypti mosquitoes for California encephalitis and dengue viruses at various temperatures. Can J Microbiol 20: 255�262,10.1139/m74-040,Tjaden et al. 2013. Extrinsic Incubation Period of Dengue: Knowledge Backlog and Applications of Temperature Dependence. Plos Neg Trop. Dis 7,10.1371/journal.pntd.0002207,Paul Huxley,phuxly@gmail.com,lab colony at the British Columbia Research Council lab. mosquitoes were infected with DENV-2 via intrathoracic injection. salivary glands contained virus.,TRUE,01/01/1974
NA,NA,EIP (extrinsic incubation period),duration until first transmision/infection of SG,13.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,British Columbia Research Council Richmond Canada,colony,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McLean et al. 1974. Vector capability of Aedes aegypti mosquitoes for California encephalitis and dengue viruses at various temperatures. Can J Microbiol 20: 255�262,10.1139/m74-040,Tjaden et al. 2013. Extrinsic Incubation Period of Dengue: Knowledge Backlog and Applications of Temperature Dependence. Plos Neg Trop. Dis 7,10.1371/journal.pntd.0002207,Paul Huxley,phuxly@gmail.com,lab colony at the British Columbia Research Council lab. mosquitoes were infected with DENV-2 via intrathoracic injection. salivary glands contained virus.,TRUE,01/01/1974
NA,NA,EIP (extrinsic incubation period),duration until first transmision/infection of SG,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,British Columbia Research Council Richmond Canada,colony,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McLean et al. 1974. Vector capability of Aedes aegypti mosquitoes for California encephalitis and dengue viruses at various temperatures. Can J Microbiol 20: 255�262,10.1139/m74-040,Tjaden et al. 2013. Extrinsic Incubation Period of Dengue: Knowledge Backlog and Applications of Temperature Dependence. Plos Neg Trop. Dis 7,10.1371/journal.pntd.0002207,Paul Huxley,phuxly@gmail.com,lab colony at the British Columbia Research Council lab. mosquitoes were infected with DENV-2 via intrathoracic injection. salivary glands contained virus.,TRUE,01/01/1974
NA,NA,EIP (extrinsic incubation period),duration until first transmision/infection of SG,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,British Columbia Research Council Richmond Canada,colony,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McLean et al. 1974. Vector capability of Aedes aegypti mosquitoes for California encephalitis and dengue viruses at various temperatures. Can J Microbiol 20: 255�262,10.1139/m74-040,Tjaden et al. 2013. Extrinsic Incubation Period of Dengue: Knowledge Backlog and Applications of Temperature Dependence. Plos Neg Trop. Dis 7,10.1371/journal.pntd.0002207,Paul Huxley,phuxly@gmail.com,lab colony at the British Columbia Research Council lab. mosquitoes were infected with DENV-2 via intrathoracic injection. salivary glands contained virus.,TRUE,01/01/1974
NA,NA,EIP (extrinsic incubation period),duration until first transmision/infection of SG,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,British Columbia Research Council Richmond Canada,colony,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McLean et al. 1974. Vector capability of Aedes aegypti mosquitoes for California encephalitis and dengue viruses at various temperatures. Can J Microbiol 20: 255�262,10.1139/m74-040,Tjaden et al. 2013. Extrinsic Incubation Period of Dengue: Knowledge Backlog and Applications of Temperature Dependence. Plos Neg Trop. Dis 7,10.1371/journal.pntd.0002207,Paul Huxley,phuxly@gmail.com,lab colony at the British Columbia Research Council lab. mosquitoes were infected with DENV-2 via intrathoracic injection. salivary glands contained virus.,TRUE,01/01/1974
NA,NA,EIP (extrinsic incubation period),duration until first transmision/infection of SG,5.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,British Columbia Research Council Richmond Canada,colony,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McLean et al. 1974. Vector capability of Aedes aegypti mosquitoes for California encephalitis and dengue viruses at various temperatures. Can J Microbiol 20: 255�262,10.1139/m74-040,Tjaden et al. 2013. Extrinsic Incubation Period of Dengue: Knowledge Backlog and Applications of Temperature Dependence. Plos Neg Trop. Dis 7,10.1371/journal.pntd.0002207,Paul Huxley,phuxly@gmail.com,lab colony at the British Columbia Research Council lab. mosquitoes were infected with DENV-2 via intrathoracic injection. salivary glands contained virus.,TRUE,01/01/1974
NA,NA,EIP (extrinsic incubation period),duration until first transmision/infection of SG,3.5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,British Columbia Research Council Richmond Canada,colony,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,35,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McLean et al. 1974. Vector capability of Aedes aegypti mosquitoes for California encephalitis and dengue viruses at various temperatures. Can J Microbiol 20: 255�262,10.1139/m74-040,Tjaden et al. 2013. Extrinsic Incubation Period of Dengue: Knowledge Backlog and Applications of Temperature Dependence. Plos Neg Trop. Dis 7,10.1371/journal.pntd.0002207,Paul Huxley,phuxly@gmail.com,lab colony at the British Columbia Research Council lab. mosquitoes were infected with DENV-2 via intrathoracic injection. salivary glands contained virus.,TRUE,01/01/1974
NA,NA,EIP (extrinsic incubation period),duration until first transmision/infection of SG,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,British Columbia Research Council Richmond Canada,colony,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McLean et al. 1975. Dengue virus transmission by mosquitoes incubated at low temperatures.,NA,Tjaden et al. 2013. Extrinsic Incubation Period of Dengue: Knowledge Backlog and Applications of Temperature Dependence. Plos Neg Trop. Dis 7,10.1371/journal.pntd.0002207,Paul Huxley,phuxly@gmail.com,lab colony at the British Columbia Research Council lab. mosquitoes were infected with DENV-2 via feeding on infected mammal. salivary glands contained virus.,TRUE,01/01/1975
NA,NA,EIP (extrinsic incubation period),duration until first transmision/infection of SG,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,British Columbia Research Council Richmond Canada,colony,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McLean et al. 1975. Dengue virus transmission by mosquitoes incubated at low temperatures.,NA,Tjaden et al. 2013. Extrinsic Incubation Period of Dengue: Knowledge Backlog and Applications of Temperature Dependence. Plos Neg Trop. Dis 7,10.1371/journal.pntd.0002207,Paul Huxley,phuxly@gmail.com,lab colony at the British Columbia Research Council lab. mosquitoes were infected with DENV-2 via feeding on infected mammal. salivary glands contained virus.,TRUE,01/01/1975
NA,NA,EIP (extrinsic incubation period),duration until first transmision/infection of SG,46,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,British Columbia Research Council Richmond Canada,colony,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McLean et al. 1975. Dengue virus transmission by mosquitoes incubated at low temperatures.,NA,Tjaden et al. 2013. Extrinsic Incubation Period of Dengue: Knowledge Backlog and Applications of Temperature Dependence. Plos Neg Trop. Dis 7,10.1371/journal.pntd.0002207,Paul Huxley,phuxly@gmail.com,lab colony at the British Columbia Research Council lab. mosquitoes were infected with DENV-2 via feeding on infected mammal. salivary glands contained virus.,TRUE,01/01/1975
NA,NA,EIP (extrinsic incubation period),duration until first transmision/infection of SG,32,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,British Columbia Research Council Richmond Canada,colony,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McLean et al. 1975. Dengue virus transmission by mosquitoes incubated at low temperatures.,NA,Tjaden et al. 2013. Extrinsic Incubation Period of Dengue: Knowledge Backlog and Applications of Temperature Dependence. Plos Neg Trop. Dis 7,10.1371/journal.pntd.0002207,Paul Huxley,phuxly@gmail.com,lab colony at the British Columbia Research Council lab. mosquitoes were infected with DENV-2 via feeding on infected mammal. salivary glands contained virus.,TRUE,01/01/1975
NA,NA,EIP (extrinsic incubation period),duration until first transmision/infection of SG,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,British Columbia Research Council Richmond Canada,colony,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McLean et al. 1975. Dengue virus transmission by mosquitoes incubated at low temperatures.,NA,Tjaden et al. 2013. Extrinsic Incubation Period of Dengue: Knowledge Backlog and Applications of Temperature Dependence. Plos Neg Trop. Dis 7,10.1371/journal.pntd.0002207,Paul Huxley,phuxly@gmail.com,lab colony at the British Columbia Research Council lab. mosquitoes were infected with DENV-2 via feeding on infected mammal. salivary glands contained virus.,TRUE,01/01/1975
NA,NA,EIP (extrinsic incubation period),duration until first transmision/infection of SG,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,British Columbia Research Council Richmond Canada,colony,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McLean et al. 1975. Dengue virus transmission by mosquitoes incubated at low temperatures.,NA,Tjaden et al. 2013. Extrinsic Incubation Period of Dengue: Knowledge Backlog and Applications of Temperature Dependence. Plos Neg Trop. Dis 7,10.1371/journal.pntd.0002207,Paul Huxley,phuxly@gmail.com,lab colony at the British Columbia Research Council lab. mosquitoes were infected with DENV-2 via feeding on infected mammal. salivary glands contained virus.,TRUE,01/01/1975
NA,NA,EIP (extrinsic incubation period),duration until first transmision/infection of SG,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,British Columbia Research Council Richmond Canada,colony,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McLean et al. 1975. Dengue virus transmission by mosquitoes incubated at low temperatures.,NA,Tjaden et al. 2013. Extrinsic Incubation Period of Dengue: Knowledge Backlog and Applications of Temperature Dependence. Plos Neg Trop. Dis 7,10.1371/journal.pntd.0002207,Paul Huxley,phuxly@gmail.com,lab colony at the British Columbia Research Council lab. mosquitoes were infected with DENV-2 via feeding on infected mammal. salivary glands contained virus.,TRUE,01/01/1975
NA,NA,EIP (extrinsic incubation period),duration until first transmision/infection of SG,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,British Columbia Research Council Richmond Canada,colony,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McLean et al. 1975. Dengue virus transmission by mosquitoes incubated at low temperatures.,NA,Tjaden et al. 2013. Extrinsic Incubation Period of Dengue: Knowledge Backlog and Applications of Temperature Dependence. Plos Neg Trop. Dis 7,10.1371/journal.pntd.0002207,Paul Huxley,phuxly@gmail.com,lab colony at the British Columbia Research Council lab. mosquitoes were infected with DENV-2 via feeding on infected mammal. salivary glands contained virus.,TRUE,01/01/1975
NA,NA,EIP (extrinsic incubation period),duration until first transmision/infection of SG,42,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,British Columbia Research Council Richmond Canada,colony,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McLean et al. 1975. Dengue virus transmission by mosquitoes incubated at low temperatures.,NA,Tjaden et al. 2013. Extrinsic Incubation Period of Dengue: Knowledge Backlog and Applications of Temperature Dependence. Plos Neg Trop. Dis 7,10.1371/journal.pntd.0002207,Paul Huxley,phuxly@gmail.com,lab colony at the British Columbia Research Council lab. mosquitoes were infected with DENV-2 via feeding on infected mammal. salivary glands contained virus.,TRUE,01/01/1975
NA,NA,EIP (extrinsic incubation period),duration until first transmision/infection of SG,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,British Columbia Research Council Richmond Canada,colony,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McLean et al. 1975. Dengue virus transmission by mosquitoes incubated at low temperatures.,NA,Tjaden et al. 2013. Extrinsic Incubation Period of Dengue: Knowledge Backlog and Applications of Temperature Dependence. Plos Neg Trop. Dis 7,10.1371/journal.pntd.0002207,Paul Huxley,phuxly@gmail.com,lab colony at the British Columbia Research Council lab. mosquitoes were infected with DENV-2 via feeding on infected mammal. salivary glands contained virus.,TRUE,01/01/1975
NA,NA,EIP (extrinsic incubation period),duration until first transmision/infection of SG,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,British Columbia Research Council Richmond Canada,colony,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McLean et al. 1975. Dengue virus transmission by mosquitoes incubated at low temperatures.,NA,Tjaden et al. 2013. Extrinsic Incubation Period of Dengue: Knowledge Backlog and Applications of Temperature Dependence. Plos Neg Trop. Dis 7,10.1371/journal.pntd.0002207,Paul Huxley,phuxly@gmail.com,lab colony at the British Columbia Research Council lab. mosquitoes were infected with DENV-2 via intrathoracic injection. salivary glands contained virus.,TRUE,01/01/1975
NA,NA,EIP (extrinsic incubation period),duration until first transmision/infection of SG,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,British Columbia Research Council Richmond Canada,colony,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McLean et al. 1975. Dengue virus transmission by mosquitoes incubated at low temperatures.,NA,Tjaden et al. 2013. Extrinsic Incubation Period of Dengue: Knowledge Backlog and Applications of Temperature Dependence. Plos Neg Trop. Dis 7,10.1371/journal.pntd.0002207,Paul Huxley,phuxly@gmail.com,lab colony at the British Columbia Research Council lab. mosquitoes were infected with DENV-2 via intrathoracic injection. salivary glands contained virus.,TRUE,01/01/1975
NA,NA,EIP (extrinsic incubation period),duration until first transmision/infection of SG,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,British Columbia Research Council Richmond Canada,colony,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,13,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McLean et al. 1975. Dengue virus transmission by mosquitoes incubated at low temperatures.,NA,Tjaden et al. 2013. Extrinsic Incubation Period of Dengue: Knowledge Backlog and Applications of Temperature Dependence. Plos Neg Trop. Dis 7,10.1371/journal.pntd.0002207,Paul Huxley,phuxly@gmail.com,lab colony at the British Columbia Research Council lab. mosquitoes were infected with DENV-2 via intrathoracic injection. salivary glands contained virus.,TRUE,01/01/1975
NA,NA,EIP (extrinsic incubation period),duration until first transmision/infection of SG,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,British Columbia Research Council Richmond Canada,colony,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McLean et al. 1975. Dengue virus transmission by mosquitoes incubated at low temperatures.,NA,Tjaden et al. 2013. Extrinsic Incubation Period of Dengue: Knowledge Backlog and Applications of Temperature Dependence. Plos Neg Trop. Dis 7,10.1371/journal.pntd.0002207,Paul Huxley,phuxly@gmail.com,lab colony at the British Columbia Research Council lab. mosquitoes were infected with DENV-2 via intrathoracic injection. salivary glands contained virus.,TRUE,01/01/1975
NA,NA,EIP (extrinsic incubation period),duration until first transmision/infection of SG,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,British Columbia Research Council Richmond Canada,colony,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McLean et al. 1975. Dengue virus transmission by mosquitoes incubated at low temperatures.,NA,Tjaden et al. 2013. Extrinsic Incubation Period of Dengue: Knowledge Backlog and Applications of Temperature Dependence. Plos Neg Trop. Dis 7,10.1371/journal.pntd.0002207,Paul Huxley,phuxly@gmail.com,lab colony at the British Columbia Research Council lab. mosquitoes were infected with DENV-2 via intrathoracic injection. salivary glands contained virus.,TRUE,01/01/1975
NA,NA,EIP (extrinsic incubation period),duration until first transmision/infection of SG,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,British Columbia Research Council Richmond Canada,colony,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McLean et al. 1975. Dengue virus transmission by mosquitoes incubated at low temperatures.,NA,Tjaden et al. 2013. Extrinsic Incubation Period of Dengue: Knowledge Backlog and Applications of Temperature Dependence. Plos Neg Trop. Dis 7,10.1371/journal.pntd.0002207,Paul Huxley,phuxly@gmail.com,lab colony at the British Columbia Research Council lab. mosquitoes were infected with DENV-2 via intrathoracic injection. salivary glands contained virus.,TRUE,01/01/1975
NA,NA,EIP (extrinsic incubation period),duration until first transmision/infection of SG,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,British Columbia Research Council Richmond Canada,colony,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,21,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McLean et al. 1975. Dengue virus transmission by mosquitoes incubated at low temperatures.,NA,Tjaden et al. 2013. Extrinsic Incubation Period of Dengue: Knowledge Backlog and Applications of Temperature Dependence. Plos Neg Trop. Dis 7,10.1371/journal.pntd.0002207,Paul Huxley,phuxly@gmail.com,lab colony at the British Columbia Research Council lab. mosquitoes were infected with DENV-2 via intrathoracic injection. salivary glands contained virus.,TRUE,01/01/1975
NA,NA,EIP (extrinsic incubation period),duration until first transmision/infection of SG,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McAllen Texas USA,field (F4),NA,0,decimal,26.216389,-98.236389,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Anderson and Rico-Hesse 2006. Aedes aegypti vectorial capacity is determined by the infecting genotype of dengue virus. Am J Trop Med Hyg 75:5,10.4269/ajtmh.2006.75.886,Tjaden et al. 2013. Extrinsic Incubation Period of Dengue: Knowledge Backlog and Applications of Temperature Dependence. Plos Neg Trop. Dis 7,10.1371/journal.pntd.0002207,Paul Huxley,phuxly@gmail.com,mosquitoes were F4 generation collected in McAllen Texas. mosquitoes were infected with DENV-2 via feeding on infected mammal. salivary glands contained virus. mosquitoes were fed 2.5*10^8 genome equivalents per ml blood,TRUE,01/01/2006
NA,NA,EIP (extrinsic incubation period),duration until first transmision/infection of SG,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McAllen Texas USA,field (F4),NA,0,decimal,26.216389,-98.236389,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Anderson and Rico-Hesse 2006. Aedes aegypti vectorial capacity is determined by the infecting genotype of dengue virus. Am J Trop Med Hyg 75:5,10.4269/ajtmh.2006.75.886,Tjaden et al. 2013. Extrinsic Incubation Period of Dengue: Knowledge Backlog and Applications of Temperature Dependence. Plos Neg Trop. Dis 7,10.1371/journal.pntd.0002207,Paul Huxley,phuxly@gmail.com,mosquitoes were F4 generation collected in McAllen Texas. mosquitoes were infected with DENV-2 via feeding on infected mammal. salivary glands contained virus. mosquitoes were fed 2.5*10^8 genome equivalents per ml blood,TRUE,01/01/2006
NA,NA,EIP (extrinsic incubation period),duration until first transmision/infection of SG,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McAllen Texas USA,field (F4),NA,0,decimal,26.216389,-98.236389,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Anderson and Rico-Hesse 2006. Aedes aegypti vectorial capacity is determined by the infecting genotype of dengue virus. Am J Trop Med Hyg 75:5,10.4269/ajtmh.2006.75.886,Tjaden et al. 2013. Extrinsic Incubation Period of Dengue: Knowledge Backlog and Applications of Temperature Dependence. Plos Neg Trop. Dis 7,10.1371/journal.pntd.0002207,Paul Huxley,phuxly@gmail.com,mosquitoes were F4 generation collected in McAllen Texas. mosquitoes were infected with DENV-2 via feeding on infected mammal. salivary glands contained virus. mosquitoes were fed 2.5*10^8 genome equivalents per ml blood,TRUE,01/01/2006
NA,NA,EIP (extrinsic incubation period),duration until first transmision/infection of SG,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McAllen Texas USA,field (F4),NA,0,decimal,26.216389,-98.236389,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Anderson and Rico-Hesse 2006. Aedes aegypti vectorial capacity is determined by the infecting genotype of dengue virus. Am J Trop Med Hyg 75:5,10.4269/ajtmh.2006.75.886,Tjaden et al. 2013. Extrinsic Incubation Period of Dengue: Knowledge Backlog and Applications of Temperature Dependence. Plos Neg Trop. Dis 7,10.1371/journal.pntd.0002207,Paul Huxley,phuxly@gmail.com,mosquitoes were F4 generation collected in McAllen Texas. mosquitoes were infected with DENV-2 via feeding on infected mammal. salivary glands contained virus. mosquitoes were fed 2.5*10^8 genome equivalents per ml blood,TRUE,01/01/2006
NA,NA,EIP (extrinsic incubation period),duration until first transmision/infection of SG,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McAllen Texas USA,field (F4),NA,0,decimal,26.216389,-98.236389,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Anderson and Rico-Hesse 2006. Aedes aegypti vectorial capacity is determined by the infecting genotype of dengue virus. Am J Trop Med Hyg 75:5,10.4269/ajtmh.2006.75.886,Tjaden et al. 2013. Extrinsic Incubation Period of Dengue: Knowledge Backlog and Applications of Temperature Dependence. Plos Neg Trop. Dis 7,10.1371/journal.pntd.0002207,Paul Huxley,phuxly@gmail.com,mosquitoes were F4 generation collected in McAllen Texas. mosquitoes were infected with DENV-2 via feeding on infected mammal. salivary glands contained virus. mosquitoes were fed 2.5*10^8 genome equivalents per ml blood,TRUE,01/01/2006
NA,NA,EIP (extrinsic incubation period),duration until first transmision/infection of SG,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,McAllen Texas USA,field (F4),NA,0,decimal,26.216389,-98.236389,Aedes aegypti,NA,NA,NA,NA,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,30,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Anderson and Rico-Hesse 2006. Aedes aegypti vectorial capacity is determined by the infecting genotype of dengue virus. Am J Trop Med Hyg 75:5,10.4269/ajtmh.2006.75.886,Tjaden et al. 2013. Extrinsic Incubation Period of Dengue: Knowledge Backlog and Applications of Temperature Dependence. Plos Neg Trop. Dis 7,10.1371/journal.pntd.0002207,Paul Huxley,phuxly@gmail.com,mosquitoes were F4 generation collected in McAllen Texas. mosquitoes were infected with DENV-2 via feeding on infected mammal. salivary glands contained virus. mosquitoes were fed 2.5*10^8 genome equivalents per ml blood,TRUE,01/01/2006
EPI001,NA,biting rate,individual-level time to first bite,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI002,NA,biting rate,individual-level time to first bite,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI003,NA,biting rate,individual-level time to first bite,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI004,NA,biting rate,individual-level time to first bite,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI005,NA,biting rate,individual-level time to first bite,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI006,NA,biting rate,individual-level time to first bite,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI007,NA,biting rate,individual-level time to first bite,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI008,NA,biting rate,individual-level time to first bite,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI009,NA,biting rate,individual-level time to first bite,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI010,NA,biting rate,individual-level time to first bite,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI011,NA,biting rate,individual-level time to first bite,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI012,NA,biting rate,individual-level time to first bite,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI013,NA,biting rate,individual-level time to first bite,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI014,NA,biting rate,individual-level time to first bite,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI015,NA,biting rate,individual-level time to first bite,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI016,NA,biting rate,individual-level time to first bite,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI017,NA,biting rate,individual-level time to first bite,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI018,NA,biting rate,individual-level time to first bite,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI019,NA,biting rate,individual-level time to first bite,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI020,NA,biting rate,individual-level time to first bite,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI021,NA,biting rate,individual-level time to first bite,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI022,NA,biting rate,individual-level time to first bite,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI023,NA,biting rate,individual-level time to first bite,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI024,NA,biting rate,individual-level time to first bite,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI025,NA,biting rate,individual-level time to first bite,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI026,NA,biting rate,individual-level time to first bite,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI027,NA,biting rate,individual-level time to first bite,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI001,NA,biting rate,individual-level number of bites,3,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI002,NA,biting rate,individual-level number of bites,2,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI003,NA,biting rate,individual-level number of bites,0,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI004,NA,biting rate,individual-level number of bites,2,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI005,NA,biting rate,individual-level number of bites,0,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI006,NA,biting rate,individual-level number of bites,4,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI007,NA,biting rate,individual-level number of bites,3,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI008,NA,biting rate,individual-level number of bites,2,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI009,NA,biting rate,individual-level number of bites,4,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI010,NA,biting rate,individual-level number of bites,3,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI011,NA,biting rate,individual-level number of bites,1,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI012,NA,biting rate,individual-level number of bites,2,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI013,NA,biting rate,individual-level number of bites,3,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI014,NA,biting rate,individual-level number of bites,2,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI015,NA,biting rate,individual-level number of bites,4,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI016,NA,biting rate,individual-level number of bites,0,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI017,NA,biting rate,individual-level number of bites,0,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI018,NA,biting rate,individual-level number of bites,1,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI019,NA,biting rate,individual-level number of bites,1,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI020,NA,biting rate,individual-level number of bites,0,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI021,NA,biting rate,individual-level number of bites,1,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI022,NA,biting rate,individual-level number of bites,5,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI023,NA,biting rate,individual-level number of bites,1,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI024,NA,biting rate,individual-level number of bites,0,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI025,NA,biting rate,individual-level number of bites,3,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI026,NA,biting rate,individual-level number of bites,3,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI027,NA,biting rate,individual-level number of bites,4,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI001,NA,biting rate,individual-level time between first and second bites,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI002,NA,biting rate,individual-level time between first and second bites,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI003,NA,biting rate,individual-level time between first and second bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI004,NA,biting rate,individual-level time between first and second bites,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI005,NA,biting rate,individual-level time between first and second bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI006,NA,biting rate,individual-level time between first and second bites,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI007,NA,biting rate,individual-level time between first and second bites,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI008,NA,biting rate,individual-level time between first and second bites,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI009,NA,biting rate,individual-level time between first and second bites,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI010,NA,biting rate,individual-level time between first and second bites,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI011,NA,biting rate,individual-level time between first and second bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI012,NA,biting rate,individual-level time between first and second bites,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI013,NA,biting rate,individual-level time between first and second bites,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI014,NA,biting rate,individual-level time between first and second bites,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI015,NA,biting rate,individual-level time between first and second bites,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI016,NA,biting rate,individual-level time between first and second bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI017,NA,biting rate,individual-level time between first and second bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI018,NA,biting rate,individual-level time between first and second bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI019,NA,biting rate,individual-level time between first and second bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI020,NA,biting rate,individual-level time between first and second bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI021,NA,biting rate,individual-level time between first and second bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI022,NA,biting rate,individual-level time between first and second bites,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI023,NA,biting rate,individual-level time between first and second bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI024,NA,biting rate,individual-level time between first and second bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI025,NA,biting rate,individual-level time between first and second bites,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI026,NA,biting rate,individual-level time between first and second bites,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI027,NA,biting rate,individual-level time between first and second bites,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI001,NA,biting rate,individual-level time between first and last bites,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI002,NA,biting rate,individual-level time between first and last bites,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI003,NA,biting rate,individual-level time between first and last bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI004,NA,biting rate,individual-level time between first and last bites,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI005,NA,biting rate,individual-level time between first and last bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI006,NA,biting rate,individual-level time between first and last bites,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI007,NA,biting rate,individual-level time between first and last bites,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI008,NA,biting rate,individual-level time between first and last bites,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI009,NA,biting rate,individual-level time between first and last bites,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI010,NA,biting rate,individual-level time between first and last bites,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI011,NA,biting rate,individual-level time between first and last bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI012,NA,biting rate,individual-level time between first and last bites,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI013,NA,biting rate,individual-level time between first and last bites,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI014,NA,biting rate,individual-level time between first and last bites,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI015,NA,biting rate,individual-level time between first and last bites,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI016,NA,biting rate,individual-level time between first and last bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI017,NA,biting rate,individual-level time between first and last bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI018,NA,biting rate,individual-level time between first and last bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI019,NA,biting rate,individual-level time between first and last bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI020,NA,biting rate,individual-level time between first and last bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI021,NA,biting rate,individual-level time between first and last bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI022,NA,biting rate,individual-level time between first and last bites,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI023,NA,biting rate,individual-level time between first and last bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI024,NA,biting rate,individual-level time between first and last bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI025,NA,biting rate,individual-level time between first and last bites,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI026,NA,biting rate,individual-level time between first and last bites,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPI027,NA,biting rate,individual-level time between first and last bites,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,24,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ001,NA,biting rate,individual-level time to first bite,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ002,NA,biting rate,individual-level time to first bite,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ003,NA,biting rate,individual-level time to first bite,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ004,NA,biting rate,individual-level time to first bite,20,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ005,NA,biting rate,individual-level time to first bite,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ006,NA,biting rate,individual-level time to first bite,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ007,NA,biting rate,individual-level time to first bite,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ008,NA,biting rate,individual-level time to first bite,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ009,NA,biting rate,individual-level time to first bite,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ010,NA,biting rate,individual-level time to first bite,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ011,NA,biting rate,individual-level time to first bite,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ012,NA,biting rate,individual-level time to first bite,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ013,NA,biting rate,individual-level time to first bite,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ014,NA,biting rate,individual-level time to first bite,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ015,NA,biting rate,individual-level time to first bite,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ016,NA,biting rate,individual-level time to first bite,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ017,NA,biting rate,individual-level time to first bite,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ018,NA,biting rate,individual-level time to first bite,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ019,NA,biting rate,individual-level time to first bite,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ020,NA,biting rate,individual-level time to first bite,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ021,NA,biting rate,individual-level time to first bite,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ022,NA,biting rate,individual-level time to first bite,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ023,NA,biting rate,individual-level time to first bite,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ024,NA,biting rate,individual-level time to first bite,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ025,NA,biting rate,individual-level time to first bite,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ026,NA,biting rate,individual-level time to first bite,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ001,NA,biting rate,individual-level number of bites,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ002,NA,biting rate,individual-level number of bites,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ003,NA,biting rate,individual-level number of bites,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ004,NA,biting rate,individual-level number of bites,1,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ005,NA,biting rate,individual-level number of bites,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ006,NA,biting rate,individual-level number of bites,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ007,NA,biting rate,individual-level number of bites,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ008,NA,biting rate,individual-level number of bites,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ009,NA,biting rate,individual-level number of bites,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ010,NA,biting rate,individual-level number of bites,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ011,NA,biting rate,individual-level number of bites,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ012,NA,biting rate,individual-level number of bites,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ013,NA,biting rate,individual-level number of bites,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ014,NA,biting rate,individual-level number of bites,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ015,NA,biting rate,individual-level number of bites,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ016,NA,biting rate,individual-level number of bites,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ017,NA,biting rate,individual-level number of bites,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ018,NA,biting rate,individual-level number of bites,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ019,NA,biting rate,individual-level number of bites,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ020,NA,biting rate,individual-level number of bites,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ021,NA,biting rate,individual-level number of bites,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ022,NA,biting rate,individual-level number of bites,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ023,NA,biting rate,individual-level number of bites,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ024,NA,biting rate,individual-level number of bites,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ025,NA,biting rate,individual-level number of bites,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ026,NA,biting rate,individual-level number of bites,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ001,NA,biting rate,individual-level time between first and second bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ002,NA,biting rate,individual-level time between first and second bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ003,NA,biting rate,individual-level time between first and second bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ004,NA,biting rate,individual-level time between first and second bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ005,NA,biting rate,individual-level time between first and second bites,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ006,NA,biting rate,individual-level time between first and second bites,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ007,NA,biting rate,individual-level time between first and second bites,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ008,NA,biting rate,individual-level time between first and second bites,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ009,NA,biting rate,individual-level time between first and second bites,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ010,NA,biting rate,individual-level time between first and second bites,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ011,NA,biting rate,individual-level time between first and second bites,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ012,NA,biting rate,individual-level time between first and second bites,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ013,NA,biting rate,individual-level time between first and second bites,9,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ014,NA,biting rate,individual-level time between first and second bites,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ015,NA,biting rate,individual-level time between first and second bites,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ016,NA,biting rate,individual-level time between first and second bites,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ017,NA,biting rate,individual-level time between first and second bites,15,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ018,NA,biting rate,individual-level time between first and second bites,12,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ019,NA,biting rate,individual-level time between first and second bites,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ020,NA,biting rate,individual-level time between first and second bites,21,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ021,NA,biting rate,individual-level time between first and second bites,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ022,NA,biting rate,individual-level time between first and second bites,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ023,NA,biting rate,individual-level time between first and second bites,18,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ024,NA,biting rate,individual-level time between first and second bites,19,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ025,NA,biting rate,individual-level time between first and second bites,22,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ026,NA,biting rate,individual-level time between first and second bites,23,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ001,NA,biting rate,individual-level time between first and last bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ002,NA,biting rate,individual-level time between first and last bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ003,NA,biting rate,individual-level time between first and last bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ004,NA,biting rate,individual-level time between first and last bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ005,NA,biting rate,individual-level time between first and last bites,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ006,NA,biting rate,individual-level time between first and last bites,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ007,NA,biting rate,individual-level time between first and last bites,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ008,NA,biting rate,individual-level time between first and last bites,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ009,NA,biting rate,individual-level time between first and last bites,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ010,NA,biting rate,individual-level time between first and last bites,6,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ011,NA,biting rate,individual-level time between first and last bites,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ012,NA,biting rate,individual-level time between first and last bites,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ013,NA,biting rate,individual-level time between first and last bites,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ014,NA,biting rate,individual-level time between first and last bites,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ015,NA,biting rate,individual-level time between first and last bites,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ016,NA,biting rate,individual-level time between first and last bites,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ017,NA,biting rate,individual-level time between first and last bites,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ018,NA,biting rate,individual-level time between first and last bites,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ019,NA,biting rate,individual-level time between first and last bites,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ020,NA,biting rate,individual-level time between first and last bites,7,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ021,NA,biting rate,individual-level time between first and last bites,11,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ022,NA,biting rate,individual-level time between first and last bites,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ023,NA,biting rate,individual-level time between first and last bites,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ024,NA,biting rate,individual-level time between first and last bites,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ025,NA,biting rate,individual-level time between first and last bites,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EPJ026,NA,biting rate,individual-level time between first and last bites,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,28,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH001,NA,biting rate,individual-level time to first bite,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH002,NA,biting rate,individual-level time to first bite,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH003,NA,biting rate,individual-level time to first bite,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH004,NA,biting rate,individual-level time to first bite,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH005,NA,biting rate,individual-level time to first bite,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH006,NA,biting rate,individual-level time to first bite,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH007,NA,biting rate,individual-level time to first bite,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH008,NA,biting rate,individual-level time to first bite,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH009,NA,biting rate,individual-level time to first bite,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH010,NA,biting rate,individual-level time to first bite,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH011,NA,biting rate,individual-level time to first bite,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH012,NA,biting rate,individual-level time to first bite,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH013,NA,biting rate,individual-level time to first bite,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH014,NA,biting rate,individual-level time to first bite,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH015,NA,biting rate,individual-level time to first bite,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH016,NA,biting rate,individual-level time to first bite,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH017,NA,biting rate,individual-level time to first bite,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH018,NA,biting rate,individual-level time to first bite,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH019,NA,biting rate,individual-level time to first bite,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH020,NA,biting rate,individual-level time to first bite,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH021,NA,biting rate,individual-level time to first bite,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH022,NA,biting rate,individual-level time to first bite,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH023,NA,biting rate,individual-level time to first bite,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH024,NA,biting rate,individual-level time to first bite,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH025,NA,biting rate,individual-level time to first bite,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH026,NA,biting rate,individual-level time to first bite,17,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH001,NA,biting rate,individual-level number of bites,0,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH002,NA,biting rate,individual-level number of bites,0,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH003,NA,biting rate,individual-level number of bites,0,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH004,NA,biting rate,individual-level number of bites,0,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH005,NA,biting rate,individual-level number of bites,0,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH006,NA,biting rate,individual-level number of bites,0,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH007,NA,biting rate,individual-level number of bites,0,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH008,NA,biting rate,individual-level number of bites,0,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH009,NA,biting rate,individual-level number of bites,0,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH010,NA,biting rate,individual-level number of bites,0,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH011,NA,biting rate,individual-level number of bites,0,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH012,NA,biting rate,individual-level number of bites,0,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH013,NA,biting rate,individual-level number of bites,0,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH014,NA,biting rate,individual-level number of bites,0,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH015,NA,biting rate,individual-level number of bites,1,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH016,NA,biting rate,individual-level number of bites,1,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH017,NA,biting rate,individual-level number of bites,1,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH018,NA,biting rate,individual-level number of bites,2,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH019,NA,biting rate,individual-level number of bites,2,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH020,NA,biting rate,individual-level number of bites,2,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH021,NA,biting rate,individual-level number of bites,2,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH022,NA,biting rate,individual-level number of bites,2,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH023,NA,biting rate,individual-level number of bites,3,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH024,NA,biting rate,individual-level number of bites,3,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH025,NA,biting rate,individual-level number of bites,3,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH026,NA,biting rate,individual-level number of bites,3,bites,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH001,NA,biting rate,individual-level time between first and second bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH002,NA,biting rate,individual-level time between first and second bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH003,NA,biting rate,individual-level time between first and second bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH004,NA,biting rate,individual-level time between first and second bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH005,NA,biting rate,individual-level time between first and second bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH006,NA,biting rate,individual-level time between first and second bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH007,NA,biting rate,individual-level time between first and second bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH008,NA,biting rate,individual-level time between first and second bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH009,NA,biting rate,individual-level time between first and second bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH010,NA,biting rate,individual-level time between first and second bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH011,NA,biting rate,individual-level time between first and second bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH012,NA,biting rate,individual-level time between first and second bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH013,NA,biting rate,individual-level time between first and second bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH014,NA,biting rate,individual-level time between first and second bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH015,NA,biting rate,individual-level time between first and second bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH016,NA,biting rate,individual-level time between first and second bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH017,NA,biting rate,individual-level time between first and second bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH018,NA,biting rate,individual-level time between first and second bites,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH019,NA,biting rate,individual-level time between first and second bites,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH020,NA,biting rate,individual-level time between first and second bites,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH021,NA,biting rate,individual-level time between first and second bites,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH022,NA,biting rate,individual-level time between first and second bites,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH023,NA,biting rate,individual-level time between first and second bites,10,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH024,NA,biting rate,individual-level time between first and second bites,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH025,NA,biting rate,individual-level time between first and second bites,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH026,NA,biting rate,individual-level time between first and second bites,3,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH001,NA,biting rate,individual-level time between first and last bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH002,NA,biting rate,individual-level time between first and last bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH003,NA,biting rate,individual-level time between first and last bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH004,NA,biting rate,individual-level time between first and last bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH005,NA,biting rate,individual-level time between first and last bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH006,NA,biting rate,individual-level time between first and last bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH007,NA,biting rate,individual-level time between first and last bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH008,NA,biting rate,individual-level time between first and last bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH009,NA,biting rate,individual-level time between first and last bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH010,NA,biting rate,individual-level time between first and last bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH011,NA,biting rate,individual-level time between first and last bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH012,NA,biting rate,individual-level time between first and last bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH013,NA,biting rate,individual-level time between first and last bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH014,NA,biting rate,individual-level time between first and last bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH015,NA,biting rate,individual-level time between first and last bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH016,NA,biting rate,individual-level time between first and last bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH017,NA,biting rate,individual-level time between first and last bites,NA,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH018,NA,biting rate,individual-level time between first and last bites,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH019,NA,biting rate,individual-level time between first and last bites,13,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH020,NA,biting rate,individual-level time between first and last bites,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH021,NA,biting rate,individual-level time between first and last bites,4,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH022,NA,biting rate,individual-level time between first and last bites,2,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH023,NA,biting rate,individual-level time between first and last bites,16,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH024,NA,biting rate,individual-level time between first and last bites,14,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH025,NA,biting rate,individual-level time between first and last bites,8,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
EGH026,NA,biting rate,individual-level time between first and last bites,5,days,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Rockefeller strain,NA,NA,NA,NA,NA,Aedes aegypti,NA,NA,NA,1,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,aegypti,adult,female,32,Celsius,NA,28,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,SI summary file,Christofferson et al. 2022. How do i bite thee? let me count the ways: Exploring the implications of individual biting habits of Aedes aegypti for dengue transmission. Plos Neg Trop Dis 16:10,10.1371/journal.pntd.0010818,NA,NA,Paul Huxley,phuxly@gmail.com,NA in originaltraitvalue indicates that the individual did not bite during the course of the experiment,TRUE,01/01/2022
NA,INF001,transmission rate,number of individuals testing positive for CHIV infection titers in saliva,1,individuals,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Freiburg Germany,field (F4),01/06/2015,3,decimal,47.99968855,7.84036245,Aedes albopictus,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,15,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Luhken et al. 2024. High vector competence for chikungunya virus but heavily reduced locomotor activity of Aedes albopictus from Germany at low temperatures. Parasites and Vectors 17:502,10.1186/s13071-024-06594-x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals tested,TRUE,01/01/2024
NA,INF001,transmission rate,number of individuals testing positive for CHIV infection titers in saliva,13,individuals,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,fluctuating temperatures,individuals exposed to fluctuations (plus/minus) of secondstressorvalue from a mean of interactor1temp,NA,NA,NA,NA,NA,NA,NA,Freiburg Germany,field (F4),01/06/2015,3,decimal,47.99968855,7.84036245,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,15,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Luhken et al. 2024. High vector competence for chikungunya virus but heavily reduced locomotor activity of Aedes albopictus from Germany at low temperatures. Parasites and Vectors 17:502,10.1186/s13071-024-06594-x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals tested,TRUE,01/01/2024
NA,INF001,transmission rate,number of individuals testing positive for CHIV infection titers in saliva,16,individuals,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Freiburg Germany,field (F4),01/06/2015,3,decimal,47.99968855,7.84036245,Aedes albopictus,NA,NA,NA,32,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Luhken et al. 2024. High vector competence for chikungunya virus but heavily reduced locomotor activity of Aedes albopictus from Germany at low temperatures. Parasites and Vectors 17:502,10.1186/s13071-024-06594-x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals tested,TRUE,01/01/2024
NA,INF001,transmission rate,number of individuals testing positive for CHIV infection titers in saliva,19,individuals,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,fluctuating temperatures,individuals exposed to fluctuations (plus/minus) of secondstressorvalue from a mean of interactor1temp,NA,NA,NA,NA,NA,NA,NA,Freiburg Germany,field (F4),01/06/2015,3,decimal,47.99968855,7.84036245,Aedes albopictus,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Luhken et al. 2024. High vector competence for chikungunya virus but heavily reduced locomotor activity of Aedes albopictus from Germany at low temperatures. Parasites and Vectors 17:502,10.1186/s13071-024-06594-x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals tested,TRUE,01/01/2024
NA,INF001,transmission rate,number of individuals testing positive for CHIV infection titers in saliva,9,individuals,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Freiburg Germany,field (F4),01/06/2015,3,decimal,47.99968855,7.84036245,Aedes albopictus,NA,NA,NA,23,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Luhken et al. 2024. High vector competence for chikungunya virus but heavily reduced locomotor activity of Aedes albopictus from Germany at low temperatures. Parasites and Vectors 17:502,10.1186/s13071-024-06594-x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals tested,TRUE,01/01/2024
NA,INF001,transmission rate,number of individuals testing positive for CHIV infection titers in saliva,17,individuals,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,fluctuating temperatures,individuals exposed to fluctuations (plus/minus) of secondstressorvalue from a mean of interactor1temp,NA,NA,NA,NA,NA,NA,NA,Freiburg Germany,field (F4),01/06/2015,3,decimal,47.99968855,7.84036245,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Luhken et al. 2024. High vector competence for chikungunya virus but heavily reduced locomotor activity of Aedes albopictus from Germany at low temperatures. Parasites and Vectors 17:502,10.1186/s13071-024-06594-x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals tested,TRUE,01/01/2024
NA,INF002,infection rate,number of individuals testing positive for CHIV infection titers in xxx,18,individuals,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Freiburg Germany,field (F4),01/06/2015,3,decimal,47.99968855,7.84036245,Aedes albopictus,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,15,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Luhken et al. 2024. High vector competence for chikungunya virus but heavily reduced locomotor activity of Aedes albopictus from Germany at low temperatures. Parasites and Vectors 17:502,10.1186/s13071-024-06594-x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals tested,TRUE,01/01/2024
NA,INF002,infection rate,number of individuals testing positive for CHIV infection titers in xxx,40,individuals,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,fluctuating temperatures,individuals exposed to fluctuations (plus/minus) of secondstressorvalue from a mean of interactor1temp,NA,NA,NA,NA,NA,NA,NA,Freiburg Germany,field (F4),01/06/2015,3,decimal,47.99968855,7.84036245,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,15,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Luhken et al. 2024. High vector competence for chikungunya virus but heavily reduced locomotor activity of Aedes albopictus from Germany at low temperatures. Parasites and Vectors 17:502,10.1186/s13071-024-06594-x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals tested,TRUE,01/01/2024
NA,INF002,infection rate,number of individuals testing positive for CHIV infection titers in xxx,32,individuals,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Freiburg Germany,field (F4),01/06/2015,3,decimal,47.99968855,7.84036245,Aedes albopictus,NA,NA,NA,32,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Luhken et al. 2024. High vector competence for chikungunya virus but heavily reduced locomotor activity of Aedes albopictus from Germany at low temperatures. Parasites and Vectors 17:502,10.1186/s13071-024-06594-x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals tested,TRUE,01/01/2024
NA,INF002,infection rate,number of individuals testing positive for CHIV infection titers in xxx,35,individuals,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,fluctuating temperatures,individuals exposed to fluctuations (plus/minus) of secondstressorvalue from a mean of interactor1temp,NA,NA,NA,NA,NA,NA,NA,Freiburg Germany,field (F4),01/06/2015,3,decimal,47.99968855,7.84036245,Aedes albopictus,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Luhken et al. 2024. High vector competence for chikungunya virus but heavily reduced locomotor activity of Aedes albopictus from Germany at low temperatures. Parasites and Vectors 17:502,10.1186/s13071-024-06594-x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals tested,TRUE,01/01/2024
NA,INF002,infection rate,number of individuals testing positive for CHIV infection titers in xxx,23,individuals,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Freiburg Germany,field (F4),01/06/2015,3,decimal,47.99968855,7.84036245,Aedes albopictus,NA,NA,NA,23,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Luhken et al. 2024. High vector competence for chikungunya virus but heavily reduced locomotor activity of Aedes albopictus from Germany at low temperatures. Parasites and Vectors 17:502,10.1186/s13071-024-06594-x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals tested,TRUE,01/01/2024
NA,INF002,infection rate,number of individuals testing positive for CHIV infection titers in xxx,29,individuals,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,fluctuating temperatures,individuals exposed to fluctuations (plus/minus) of secondstressorvalue from a mean of interactor1temp,NA,NA,NA,NA,NA,NA,NA,Freiburg Germany,field (F4),01/06/2015,3,decimal,47.99968855,7.84036245,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Luhken et al. 2024. High vector competence for chikungunya virus but heavily reduced locomotor activity of Aedes albopictus from Germany at low temperatures. Parasites and Vectors 17:502,10.1186/s13071-024-06594-x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals tested,TRUE,01/01/2024
NA,INF003,transmission efficiency,percentage of invididual testing position for for CHIV infection titers in saliva,5.56,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Freiburg Germany,field (F4),01/06/2015,3,decimal,47.99968855,7.84036245,Aedes albopictus,NA,NA,NA,18,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,15,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Luhken et al. 2024. High vector competence for chikungunya virus but heavily reduced locomotor activity of Aedes albopictus from Germany at low temperatures. Parasites and Vectors 17:502,10.1186/s13071-024-06594-x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals tested,TRUE,01/01/2024
NA,INF003,transmission efficiency,percentage of invididual testing position for for CHIV infection titers in saliva,32.5,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,fluctuating temperatures,individuals exposed to fluctuations (plus/minus) of secondstressorvalue from a mean of interactor1temp,NA,NA,NA,NA,NA,NA,NA,Freiburg Germany,field (F4),01/06/2015,3,decimal,47.99968855,7.84036245,Aedes albopictus,NA,NA,NA,40,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,15,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Luhken et al. 2024. High vector competence for chikungunya virus but heavily reduced locomotor activity of Aedes albopictus from Germany at low temperatures. Parasites and Vectors 17:502,10.1186/s13071-024-06594-x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals tested,TRUE,01/01/2024
NA,INF003,transmission efficiency,percentage of invididual testing position for for CHIV infection titers in saliva,50,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Freiburg Germany,field (F4),01/06/2015,3,decimal,47.99968855,7.84036245,Aedes albopictus,NA,NA,NA,32,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,28,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Luhken et al. 2024. High vector competence for chikungunya virus but heavily reduced locomotor activity of Aedes albopictus from Germany at low temperatures. Parasites and Vectors 17:502,10.1186/s13071-024-06594-x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals tested,TRUE,01/01/2024
NA,INF003,transmission efficiency,percentage of invididual testing position for for CHIV infection titers in saliva,54.3,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,fluctuating temperatures,individuals exposed to fluctuations (plus/minus) of secondstressorvalue from a mean of interactor1temp,NA,NA,NA,NA,NA,NA,NA,Freiburg Germany,field (F4),01/06/2015,3,decimal,47.99968855,7.84036245,Aedes albopictus,NA,NA,NA,35,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,18,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Luhken et al. 2024. High vector competence for chikungunya virus but heavily reduced locomotor activity of Aedes albopictus from Germany at low temperatures. Parasites and Vectors 17:502,10.1186/s13071-024-06594-x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals tested,TRUE,01/01/2024
NA,INF003,transmission efficiency,percentage of invididual testing position for for CHIV infection titers in saliva,39.1,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,Freiburg Germany,field (F4),01/06/2015,3,decimal,47.99968855,7.84036245,Aedes albopictus,NA,NA,NA,23,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Luhken et al. 2024. High vector competence for chikungunya virus but heavily reduced locomotor activity of Aedes albopictus from Germany at low temperatures. Parasites and Vectors 17:502,10.1186/s13071-024-06594-x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals tested,TRUE,01/01/2024
NA,INF003,transmission efficiency,percentage of invididual testing position for for CHIV infection titers in saliva,58.6,percent,NA,NA,NA,NA,NA,terrestrial,laboratory,NA,NA,NA,NA,NA,NA,NA,fluctuating temperatures,individuals exposed to fluctuations (plus/minus) of secondstressorvalue from a mean of interactor1temp,NA,NA,NA,NA,NA,NA,NA,Freiburg Germany,field (F4),01/06/2015,3,decimal,47.99968855,7.84036245,Aedes albopictus,NA,NA,NA,29,Animalia,Arthropoda,Insecta,Diptera,Culicidae,Aedes,albopictus,adult,female,21,Celsius,NA,26,Celsius,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,NA,table 1,Luhken et al. 2024. High vector competence for chikungunya virus but heavily reduced locomotor activity of Aedes albopictus from Germany at low temperatures. Parasites and Vectors 17:502,10.1186/s13071-024-06594-x,NA,NA,Paul Huxley,phuxly@gmail.com,interactor1number is the number of individuals tested,TRUE,01/01/2024